NULL	14-3-3 proteins	GRF1	Chi	F23J3.30	AT4G09000	18413180	NM_116969	14-3-3 protein GF14chi (grf1)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF2	Omega	F3F9.16	AT1G78300	18411900	NM_106479	14-3-3 protein GF14omega (grf2)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF3	Psi	MXI10.21	AT5G38480	18421761	NM_123209	14-3-3 protein GF14psi (grf3/RCI1)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF4	Phi	T32G9.30	AT1G35160	18399523	NM_103213	14-3-3 protein GF14phi (grf4)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF5	Upsilon	F1N13.190	AT5G16050	18417862	NM_121610	14-3-3 protein GF14upsilon (grf5)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF6	Lambda	F12B17.200	AT5G10450	18416276	NM_121083	14-3-3 protein GF14lambda (grf6/AFT1)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF7	Nu	F16B3.15	AT3G02520	18396216	NM_111119	14-3-3 protein GF14nu (grf7)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF8	Kappa	MNA5.16	AT5G65430	18424949	NM_125941	14-3-3 protein GF14kappa (grf8)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF9	Mu	F14N22.14	AT2G42590	18406006	NM_129820	14-3-3 protein GF14mu (grf9)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF10	Epsilon	T16E15.8	AT1G22300	18395102	NM_102081	14-3-3 protein GF14epsilon (grf10)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF11	Omicron	F21H2.3	AT1G34760	18399426	NM_103196	14-3-3 protein GF14omicron (grf11)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF12	Iota	T1K7.15	AT1G26480	18395914	NM_102411	14-3-3 protein GF14iota (grf12)	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
NULL	14-3-3 proteins	GRF13	Pi	T11I11.16	AT1G78220	18411866	NM_106472	"14-3-3 protein (grf13), putative"	NULL	NULL	4886	8075	3126;5878;1346398;1346697	NULL	http://www.hos.ufl.edu/ferllab/14-3-3's/index.htm	The 14-3-3's
ABC Superfamily	MDR subfamily	ATMDR1	PGP1	T1J8_9	AT2G36910	18404272	NM_129247	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR2	PGP2	F20B18_70	AT4G25960	18416653	NM_118729	P-glycoprotein-2 (pgp2)	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR3	PGP3	T7B11_8	AT4G01820	18411742	NM_116412	P-glycoprotein-like protein pgp3	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR4	NULL	F14M4_17	AT2G47000	18407229	NM_130268	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR5	NULL	T7B11_9	AT4G01830	18411744	NM_116413	putative P-glycoprotein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR6	NULL	F12L6_14	AT2G39480	18405068	NM_129506	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR7	NULL	K11I1_13	AT5G46540	18422685	NM_124024	multidrug resistance p-glycoprotein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR8	NULL	T14P4.15;T14P4_19	AT1G02520	18378977	NM_100133	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR9	NULL	F15J5_20	AT4G18050	18415014	NM_117915	multidrug resistance protein/P-glycoprotein - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR10	NULL	F20B24_12	AT1G10680	18391189	NM_100944	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR11	NULL	MLD15_2	AT3G28860	18405951	NM_113807	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR12	NULL	F13K9_11	AT1G28010	18396597	NM_102566	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR13	NULL	MFJ20_1;MZF16_14;MZF16.16	AT3G28345;AT3G28344	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR14	NULL	T26I12_200	AT3G55320	18410252	NM_115390	P-glycoprotein - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR15	NULL	F13K9_5	AT1G27940	18396562	NM_102559	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR16	NULL	T14P4.14;T14P4_18	AT1G02530	18378978	NM_100134	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR17	NULL	T17J13_110	AT3G62150	18412269	NM_116080	P-glycoprotein-like proetin	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR18	NULL	MFJ20.4;MFJ20_3	AT3G28360	18405749	NM_113756	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR19	NULL	MFJ20.6;MFJ20_5	AT3G28380	18405763	NM_113758	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR20	NULL	MFJ20.7;MFJ20_6	AT3G28390	18405767	NM_113759	"P-glycoprotein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR21	NULL	MFJ20.11	NULL	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MDR subfamily	ATMDR22	NULL	MJI6.16;MJI6_4	NULL	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP1	NULL	T4K22_12	AT1G30400	18397493	NM_102777	glutathione S-conjugate transporting ATPase (ATMRP1)	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP2	NULL	T29F13_13	AT2G34660	18403622	NM_129020	ABC transporter (ATMRP2)	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP3	NULL	MJG19.3;MJG19_2	AT3G13080	18399857	NM_112147	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP4	NULL	F17A22_19	AT2G47800	18407453	NM_130347	glutathione-conjugate transporter ATMRP4	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP5	NULL	F20D22_11	AT1G04120	18379246	NM_100293	multi-drug resistance protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP6	NULL	MXL8_11	AT3G21250	18402937	NM_113020	unknown protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP7	NULL	MJG19.5;MJG19_4	AT3G13100	18399864	NM_112149	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP8	NULL	MJG19.4;MJG19_3	AT3G13090	18399861	NM_112148	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP9	NULL	T2O9_140	AT3G60160	18411507	NM_115879	multi resistance protein homolog	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP10	NULL	F26K9_130	AT3G62700	18412468	NM_116135	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP11	NULL	T5E7_1	AT2G07680	18396749	NM_126770	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP12	NULL	T4K22_1;F26G16.1	AT1G30420	18397504	NM_102779	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP13	NULL	T4K22_13	AT1G30410	18397498	NM_102778	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP14	NULL	F17J16_190	AT3G59140	18411102	NM_115776	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	MRP subfamily	ATMRP15	NULL	T27I15_60	AT3G60970	18411795	NM_115961	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR1	NULL	MYA6.14;MYA6_15	AT3G16340	18401095	NM_112505	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR2	NULL	ATFCA0	AT4G15220;AT4G15230	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR3	NULL	F23F1_14	AT2G29940	18402195	NM_128548	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR4	NULL	F12C20_5	AT2G26910	18401268	NM_128248	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR5	NULL	F3G5_7	AT2G37280	18404370	NM_129284	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR6	NULL	F1O11_1	AT2G36380	NULL	NULL	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR7	NULL	F9L1_15	AT1G15210	18394210	NM_101389	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR8	NULL	F23H11_19	AT1G59870	18406525	NM_104680	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR9	NULL	F4P12_180	AT3G53480	18409844	NM_115208	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR10	NULL	MJI6.3;MJI6_10	NULL	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR11	NULL	F1O19.3;F1O19_2	AT1G61020	NULL	NULL	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR12	NULL	T16N11_3	AT1G15520	18394254	NM_101421	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PDR subfamily	ATPDR13	NULL	T4O24_9	AT1G66950	18408653	NM_105366	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	AOH subfamily	ATAOH1	NULL	T11A7_20	AT2G41700	18405779	NM_129733	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PMP subfamily	ATPMP1	NULL	F20D21_17	AT1G54350	18404898	NM_104313	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	PMP subfamily	ATPMP2	NULL	T5J17_20	AT4G39850	18420545	NM_120148	putative protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC1	NULL	T16B24_1	AT2G39350	18405022	NM_129492	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC2	NULL	F3G5_15	AT2G37360	18404400	NM_129291	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC3	NULL	F24D13_14	AT2G28070	18401615	NM_128366	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC4	NULL	F14M19_30	AT4G25750	18416612	NM_118707	putative membrane transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC5	NULL	T10F5_15	AT2G13610	18397284	NM_126940	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC6	NULL	MSH12_4	AT5G13580	18417120	NM_121361	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC7	NULL	F10A8_20	AT2G01320	18379198	NM_126193	putative membrane transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC8	NULL	MXC20_8	AT5G52860	18423439	NM_124664	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC9	NULL	F27G19_20	AT4G27420	18416987	NM_118876	putative protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC10	NULL	F12M16_17	AT1G53270	18404395	NM_104205	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC11	NULL	F2H15.7	AT1G17840	18394540	NM_101647	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC12	NULL	F5D21_6	AT1G51500	18403556	NM_104028	"ATP-dependent transmembrane transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC13	NULL	F5D21_8	AT1G51460	18403533	NM_104024	"ATP-dependent transmembrane transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC14	NULL	F27M3_2;F5M6_22	AT1G31770	18398109	NM_102911	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC15	NULL	MSA6_1	AT3G21090	18402880	NM_113003	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC16	NULL	T15C9_80	AT3G55090	18410201	NM_115367	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC17	NULL	T15C9_100	AT3G55100	18410203	NM_115368	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC18	NULL	T15C9_110	AT3G55110	18410205	NM_115369	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC19	NULL	T26I12_10	AT3G55130	18410208	NM_115371	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC20	NULL	F4P12_210	AT3G53510	18409849	NM_115211	ABC transporter -like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC21	NULL	T5M7.6 (N)	AT3G25620	18404596	NM_113460	"membrane transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC22	NULL	MSA6_13	AT3G21090	18402880	NM_113003	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC23	NULL	F15M7_6	AT5G06530	18415229	NM_120736	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC24	NULL	F7K24_160	AT5G19410	18419907	NM_121946	membrane transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC25	NULL	F12M16_28	AT1G53390	18404451	NM_104218	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC26	NULL	F17M19_11;F28P5	AT1G71960	18409954	NM_105854	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC27	NULL	MJG19.19;MJG19_16	AT3G13220	18399911	NM_112162	ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC28	NULL	T25B15_80	AT3G52310	18409541	NM_115091	"ABC transporter, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	WBC subfamily	ATWBC29	NULL	mup24_150	AT5G60740	18424391	NM_125467	xABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH1	NULL	T23J7_60	AT3G47730	18408494	NM_114641	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH2	NULL	T23J7_70	AT3G47740	18408496	NM_114642	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH3	NULL	T23J7_80	AT3G47750	18408498	NM_114643	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH4	NULL	T23J7_90	AT3G47760	NULL	NULL	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH5	NULL	T23J7_100	AT3G47770	18408503	NM_114645	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH6	NULL	T23J7_110	AT3G47780	18408505	NM_114646	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH7	NULL	T23J7_120	AT3G47790	18408507	NM_114647	ABC-type transport protein-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH8	NULL	T16B24_17	AT2G39190	18404976	NM_129477	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH9	NULL	T29M21_25	AT2G40090	18405260	NM_129567	putative ABC1 protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH10	NULL	T15B16_14	AT4G01660	18411695	NM_116396	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH11	NULL	MAC9.4;mac9_30	AT5G61730	18424502	NM_125567	ABC transport protein - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH12	NULL	F8F6_120;MED24	AT5G03910	18414397	NM_120473	ABC transporter -like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH13	NULL	MXK3_17	AT5G64940	18424893	NM_125893	ABC transporter-like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH14	NULL	MAC9.5;mac9_40	AT5G61740	18424503	NM_125568	ABC family transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH15	NULL	K11J9_210	AT5G61690	18424498	NM_125563	ABC transport protein - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATH subfamily	ATATH16	NULL	MAC9.1;K11J9_23	AT5G61700	18424499	NM_125564	ABC family transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATM subfamily	ATATM1	NULL	T5F17_80	AT4G28630	18417232	NM_119005	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATM subfamily	ATATM2	NULL	T5F17_70	AT4G28620	18417231	NM_119004	ABC transporter - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	ATM subfamily	ATATM3	STA1	MCK7_14	AT5G58270	18424083	NM_125212	ABC transporter-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	TAP subfamily	ATTAP1	NULL	F5A18_21;F24J13_18	AT1G70610	18409630	NM_105729	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	TAP subfamily	ATTAP2	NULL	MXF12.6;MXF12_50	AT5G39040	18421822	NM_123266	ABC transporter -like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	RLI subfamily	ATRLI1	NULL	MMM17_3	AT3G13640	18400096	NM_112210	"RNase L inhibitor, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	RLI subfamily	ATRLI2	NULL	T18B16_180	AT4G19210	18415267	NM_118041	RNase L inhibitor-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	GCN subfamily	ATGCN1	NULL	MAE1_40	AT5G60790	18424397	NM_125472	ABC transporter homolog PnATH - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	GCN subfamily	ATGCN2	NULL	MYH9_14	AT5G09930	18416126	NM_121030	"ABC transporter, ATP-binding protein-like"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	GCN subfamily	ATGCN3	NULL	F1N19.11;F1N19_12	AT1G64550	18408077	NM_105130	"ABC transporter protein, putative"	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	GCN subfamily	ATGCN4	NULL	T14E10_110	AT3G54540	18410083	NM_115311	NULL	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	GCN subfamily	ATGCN5	NULL	MXK3_6	AT5G64840	18424876	NM_125882	ABC transporter protein 1-like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	SMC subfamily	ATSMC1	NULL	T5N23_30	AT3G54670	18410110	NM_115324	structural maintenance of chromosomes (SMC) - like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	SMC subfamily	ATSMC2	NULL	F1P2_10	AT3G47460	18408430	NM_114614	chromosome assembly protein homolog	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	SMC subfamily	ATSMC3	NULL	K15N18_7	AT5G48600	18422933	NM_124236	chromosome condensation protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	SMC subfamily	ATSMC4	NULL	MMI9.24;mmi9_230	AT5G62410	18424584	NM_125635	chromosomal protein - like	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP1	LAF6	T4B21_16	AT4G04770	18412691	NM_116715	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP2	POP1	MLN1_3	AT5G44110	18422407	NM_123778	NBD-like protein (gb|AAD20643.1)	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP3	NULL	T23K23_21	AT1G67940	18408902	NM_105464	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP4	NULL	F21M11_17	AT1G03900	18379171	NM_100270	unknown protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP5	NULL	F3I17_2	AT1G71330	18409829	NM_105802	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP6	NULL	F5D14.28;F5D14_26	AT1G32500	18398462	NM_102985	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP7	NULL	F13M14_4;F18K10_29	AT3G10670	18398954	NM_111903	putative ABC transporter ATPase	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP8	NULL	M7J2_180	AT4G25450	18416553	NM_118677	putative protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP9	NULL	T1E22_30	AT5G02270	18413880	NM_120305	ABC transporter -like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP10	NULL	F9N12_11	AT1G63270	18407777	NM_105006	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP11	NULL	T8F5_19	AT1G65410	18408273	NM_105215	hypothetical protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP12	NULL	T1J8_19	AT2G37010	18404299	NM_129257	putative ABC transporter	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP13	NULL	F17M5_220	AT4G33460	18418218	NM_119500	putative protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP14	NULL	MUA22_10	AT5G14100	18417288	NM_121413	expressed protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC Superfamily	NAP subfamily	ATNAP15	NULL	F17I23_360	AT4G30300	18417567	NM_119176	RNase L inhibitor-like protein	NULL	NULL	7102;4559;444	NULL	NULL	NULL	http://www.arabidopsisabc.net	ARABIDOPSISABC.NET
ABC transporters	ABC transporter-like	NULL	NULL	F17J16_190	AT3G59140	18411102	NM_115776	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	MXL8_11	AT3G21250	18402937	NM_113020	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T2O9_140	AT3G60160	18411507	NM_115879	multi resistance protein homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T27I15_60	AT3G60970	18411795	NM_115961	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	F17A22.19	AT2G47800	18407453	NM_130347	glutathione-conjugate transporter AtMRP4	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	F26K9_130	AT3G62700	18412468	NM_116135	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	F3I17_2	AT1G71330	18409829	NM_105802	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T4K22_1	AT1G30420	18397504	NM_102779	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T4K22_13	AT1G30410	18397498	NM_102778	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T4K22_12	AT1G30400	18397493	NM_102777	glutathione S-conjugate transporting ATPase (AtMRP1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T5E7.1	AT2G07680	18396749	NM_126770	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T29F13.13	AT2G34660	18403622	NM_129020	ABC transporter (AtMRP2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	F20D22_11	AT1G04120	18379246	NM_100293	multi-drug resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	MJG19_2	AT3G13080	18399857	NM_112147	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	MJG19_3	AT3G13090	18399861	NM_112148	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	MJG19_4	AT3G13100	18399864	NM_112149	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MXF12_50	AT5G39040	18421822	NM_123266	ABC transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	K11I1_13	AT5G46540	18422685	NM_124024	multidrug resistance p-glycoprotein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MZF16_14	AT3G28344	NULL	NULL	"P-glycoprotein, 5' partial"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MFJ20_1	AT3G28345	18405744	NM_113754	"P-glycoprotein, putative, 3'partial"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MFJ20_3	AT3G28360	18405749	NM_113756	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MFJ20_6	AT3G28390	18405767	NM_113759	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T1J8.9	AT2G36910	18404272	NM_129247	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F14M4.17	AT2G47000	18407229	NM_130268	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MLD15_2	AT3G28860	18405951	NM_113807	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F8F6_120	AT5G03910	18414397	NM_120473	ABC transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T5F17_70	AT4G28620	18417231	NM_119004	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T5F17_80	AT4G28630	18417232	NM_119005	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T17J13_110	AT3G62150	18412269	NM_116080	P-glycoprotein-like proetin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T26I12_200	AT3G55320	18410252	NM_115390	P-glycoprotein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F12L6.14	AT2G39480	18405068	NM_129506	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F13K9_5	AT1G27940	18396562	NM_102559	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F13K9_11	AT1G28010	18396597	NM_102566	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	MCK7_14	AT5G58270	18424083	NM_125212	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T14P4_18	AT1G02530	18378978	NM_100134	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T14P4_19	AT1G02520	18378977	NM_100133	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F5A18_21	AT1G70610	18409630	NM_105729	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F20B24_12	AT1G10680	18391189	NM_100944	"P-glycoprotein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F15J5_20	AT4G18050	18415014	NM_117915	multidrug resistance protein/P-glycoprotein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T7B11_8	AT4G01820	18411742	NM_116412	P-glycoprotein-like protein pgp3	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	T7B11_9	AT4G01830	18411744	NM_116413	putative P-glycoprotein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	M7J2_180	AT4G25450	18416553	NM_118677	putative P-glycoprotein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	P-glycoprotein-2	NULL	NULL	F20B18_70	AT4G25960	18416653	NM_118729	P-glycoprotein-2 (pgp2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T25B15_80	AT3G52310	18409541	NM_115091	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T10F5.15	AT2G13610	18397284	NM_126940	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	MSA6_13	AT3G21090	18402880	NM_113003	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F10A8.20	AT2G01320	18379198	NM_126193	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F4P12_210	AT3G53510	18409849	NM_115211	ABC transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F27G19_20	AT4G27420	18416987	NM_118876	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F3G5.15	AT2G37360	18404400	NM_129291	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F7K24_160	AT5G19410	18419907	NM_121946	membrane transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F2H15_6	AT1G17840	18394540	NM_101647	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	MSH12_4	AT5G13580	18417120	NM_121361	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F5D21_6	AT1G51500	18403556	NM_104028	"ATP-dependent transmembrane transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F5D21_8	AT1G51460	18403533	NM_104024	"ATP-dependent transmembrane transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T15C9_80	AT3G55090	18410201	NM_115367	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T15C9_100	AT3G55100	18410203	NM_115368	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T15C9_110	AT3G55110	18410205	NM_115369	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T26I12_10	AT3G55130	18410208	NM_115371	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T16B24.1	AT2G39350	18405022	NM_129492	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F15M7_6	AT5G06530	18415229	NM_120736	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T5M7_4	AT3G25620	18404596	NM_113460	"membrane transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F12M16_17	AT1G53270	18404395	NM_104205	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	MXC20_8	AT5G52860	18423439	NM_124664	ABC transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F17M19_11	AT1G71960	18409954	NM_105854	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F14M19_30	AT4G25750	18416612	NM_118707	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F24D13.14	AT2G28070	18401615	NM_128366	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	MJG19_16	AT3G13220	18399911	NM_112162	ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F27M3_2	AT1G31770	18398109	NM_102911	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F1O11.1	AT2G36380	NULL	NULL	putative ABC transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T16N11_3	AT1G15520	18394254	NM_101421	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F4P12_180	AT3G53480	18409844	NM_115208	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F3G5.7	AT2G37280	18404370	NM_129284	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F23F1.14	AT2G29940	18402195	NM_128548	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T4O24_9	AT1G66950	18408653	NM_105366	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F23H11_19	AT1G59870	18406525	NM_104680	"ABC transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	MYA6_15	AT3G16340	18401095	NM_112505	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	dl3660w	AT4G15230	18414407	NM_117611	ABC transporter like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F12C20.5	AT2G26910	18401268	NM_128248	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	F9L1_15	AT1G15210	18394210	NM_101389	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC-type transport-like	NULL	NULL	k11j9_21	AT5G61690	18424498	NM_125563	ABC transport protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC-type transport-like	NULL	NULL	mac9_30	AT5G61730	18424502	NM_125567	ABC transport protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC-type transport-like	NULL	NULL	T23J7_60	AT3G47730	18408494	NM_114641	ABC-type transport protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	k11j9_220	AT5G61700	18424499	NM_125564	ABC family transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	mac9_40	AT5G61740	18424503	NM_125568	ABC family transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_70	AT3G47740	18408496	NM_114642	ABC family transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_80	AT3G47750	18408498	NM_114643	ABC family transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_90	AT3G47760	NULL	NULL	ABC-type transport protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_100	AT3G47770	18408503	NM_114645	ABC-type transport protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_110	AT3G47780	18408505	NM_114646	ABC-type transport protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	T23J7_120	AT3G47790	18408507	NM_114647	ABC-type transport protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	F12M16_28	AT1G53390	18404451	NM_104218	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	ABC transporter-like	NULL	NULL	mup24_150	AT5G60740	18424391	NM_125467	ABC transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
ABC transporters	Putative ABC transporter	NULL	NULL	T11A7.20	AT2G41700	18405779	NM_129733	putative ABC transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F1O11.22	AT2G36590	18404171	NM_129215	putative proline transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F12B7_20	AT1G67640	18408825	NM_105432	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F28J7_9	AT3G01760	18395934	NM_111042	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T7O23_19	AT1G44100	18401219	NM_103536	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	K2A18_5	AT5G65990	18425016	NM_125996	amino acid transporter protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F11P17_1	AT1G61270	NULL	NULL	"lysine and histidine specific transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F5E19_80	AT5G16740	18418074	NM_121680	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	K16L22_8	AT5G41800	18422138	NM_123545	amino acid permease-like protein; proline transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T32E8_2	AT1G77690	18411646	NM_106418	putative AUX1-like permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T28M21.5	AT2G39890	18405193	NM_129547	proline transporter 1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F2G14_60	AT5G14940	18417520	NM_121498	oligopeptide transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T7H20_220	AT5G02170	18413852	NM_120295	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F2J7_5	AT1G25530	18395717	NM_102364	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	K1B16_3	AT5G40780	18422024	NM_123443	amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T3K9.4	AT2G41190	NULL	NULL	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T6J22_16	AT3G30390	18406462	NM_113938	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T23G18_9	AT1G08230	18390867	NM_100697	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	K5K13_7	AT3G28960	18405991	NM_113817	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T27I1_3	AT1G10010	18391098	NM_100875	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F16M14.5	AT2G38120	18404641	NM_129368	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F26K24_19	AT3G11900	18399403	NM_112023	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	MKD10_120	AT5G38820	18421797	NM_123243	transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T21F11_16	AT1G80510	18412863	NM_106699	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T7H20_230	AT5G02180	18413854	NM_120296	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	MGI19_5	AT5G63850	18424755	NM_125780	amino acid transporter AAP4 (pir||S51169)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F3L24_20	AT3G09330	18398475	NM_111767	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F3L24_21	AT3G09340	18398477	NM_111768	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T7F6.30	AT2G39130	NULL	NULL	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	MNI5_1	AT5G49630	18423050	NM_124341	amino acid permease 6 (emb|CAA65051.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F8M21_130	AT5G15240	18417609	NM_121528	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F19C14_3	AT1G58360	18406263	NM_104616	amino acid permease I	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F11I4_17	AT1G48640	18402305	NM_103760	"lysine and histidine specific transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F16N3_4	AT1G47670	18401841	NM_103660	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F26H11.19	AT2G21050	18399569	NM_127675	AUX1-like amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T5E8_20	AT5G09220	18415920	NM_120958	amino acid transport protein AAP2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F14O23_2	AT1G71680	18409876	NM_105822	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F18O21_160	AT3G56200	18410447	NM_115478	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F21J9_260	AT1G24400	18395470	NM_102286	putative lysine/histidine-specific permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F22I13_20	AT4G38250	18420205	NM_119987	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F28P10_190	AT3G54830	18410141	NM_115340	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	F2P24_9	AT1G77380	18411515	NM_106387	"amino acid carrier, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	MRO11_15	AT5G23810	18420718	NM_122286	amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AAAP family	NULL	NULL	T12J5_50	AT4G35180	18418589	NM_119684	amino acid permease - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Acyl Lipid Metabolism Family	Plastidial Homomeric Acetyl-CoA Carboxylase	NULL	NULL	F15C21.2	At1g36180	NULL	NULL	acetyl-CoA carboxylase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-ACP Thioesterase FatA	NULL	NULL	MJL12.9	At3g25110	NULL	NULL	acyl-(acyl carrier protein) thioesterase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-ACP Thioesterase FatA	FatA	NULL	F25G13.140	At4g13050	NULL	NULL	oleoyl-(acyl-carrier-protein) hydrolase-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-ACP Thioesterase FatB	FatB	NULL	T27G7.19	At1g08510	NULL	NULL	acyl-(acyl carrier protein) thioesterase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Pyruvate Dehydrogenase E1 alpha subunit	NULL	NULL	T25K16.8	At1g01090	NULL	NULL	pyruvate dehydrogenase E1 alpha subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Pyruvate Dehydrogenase E1 alpha subunit	NULL	NULL	F3I6.11	At1g24180	NULL	NULL	pyruvate dehydrogenase E1 alpha subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Pyruvate Dehydrogenase E1 beta subunit	NULL	NULL	T2H7.8	At1g30120	NULL	NULL	pyruvate dehydrogenase E1 beta subunit -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Pyruvate Dehydrogenase E1 beta subunit	NULL	NULL	T31E10.7	At2g34590	NULL	NULL	pyruvate dehydrogenase E1 beta subunit -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Acetyltransferase, pyruvate DH complex"	NULL	NULL	F7P12.2	At1g34430	NULL	NULL	dihydrolipoamide S-acetyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Acetyltransferase, pyruvate DH complex"	NULL	NULL	F20D21.4	At1g54220	NULL	NULL	dihydrolipoamide S-acetyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Acetyltransferase, pyruvate DH complex"	NULL	NULL	MDC16.18	At3g13930	NULL	NULL	acetyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Acetyltransferase, pyruvate DH complex"	NULL	NULL	MPE11.6	At3g25860	NULL	NULL	dihydrolipoamide S-acetyltransferase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Dehydrogenase, pyruvate DH complex"	NULL	NULL	K14A17.6	At3g16950	NULL	NULL	"dihydrolipoamide dehydrogenase 1, plastidic (lipoamide dehydrogenase 1) (ptlpd1)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Plastidial Dihydrolipoamide Dehydrogenase, pyruvate DH complex"	NULL	NULL	FCAALL.61	At4g16155	NULL	NULL	"dihydrolipoamide dehydrogenase 2, plastidic (lipoamide dehydrogenase 2) (ptlpd2)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoate Synthase	NULL	NULL	F8L15.14	At5g08410	NULL	NULL	lipoic acid synthase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoyltransferase	Lip2p	NULL	F6I18.40	At4g31050	NULL	NULL	LIP2p lipoyltransferase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Acetyl-CoA carboxylase, alpha-carboxyltransferase "	NULL	NULL	T8P21.5	At2g38040	NULL	NULL	alpha-carboxyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Acetyl-CoA carboxylase, beta-carboxyltransferase"	NULL	NULL	none	AtCg00500	NULL	NULL	carboxytransferase beta subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Acetyl-CoA carboxylase, biotin carboxyl carrier protein"	BCCP2	NULL	T20K14.140	At5g15530	NULL	NULL	biotin carboxyl carrier protein 2 (BCCP2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Acetyl-CoA carboxylase, biotin carboxyl carrier protein"	BCCP1	NULL	MQK4.12	At5g16390	NULL	NULL	biotin carboxyl carrier protein 1 (BCCP1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Acetyl-CoA carboxylase, biotin carboxylase"	NULL	NULL	T26D22.8	At5g35360	NULL	NULL	acetyl-CoA carboxylase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Malonyl-CoA : ACP Malonyltransferase 	NULL	NULL	T27E13.6	At2g30200	NULL	NULL	malonyl-CoA:Acyl carrier protein transacylase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-ACP Synthase I	NULL	NULL	MPL12.7	At5g46290	NULL	NULL	3-oxoacyl-(acyl-carrier-protein) synthase I precursor (beta-ketoacyl-acp synthase I) (KAS I) (sp|P52410)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-ACP Synthase II	NULL	NULL	F9E10.19	At1g74960	NULL	NULL	3-ketoacyl-ACP synthase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-ACP Synthase III	NULL	NULL	T3P18.20	At1g62640	NULL	NULL	3-ketoacyl-acyl carrier protein synthase III (KAS III)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Ketoacyl-ACP Reductase	NULL	NULL	F21J9.2	At1g24360	NULL	NULL	3-oxoacyl-(acyl-carrier protein) reductase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Ketoacyl-ACP Reductase	NULL	NULL	T3P18.17	At1g62610	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Ketoacyl-ACP Reductase	NULL	NULL	F12M12.140	At3g46170	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Ketoacyl-ACP Reductase	NULL	NULL	T26I12.170	At3g55290	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Ketoacyl-ACP Reductase	NULL	NULL	T26I12.190	At3g55310	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Hydroxyacyl-ACP Dehydrase	NULL	NULL	T26C19.11	At2g22230	NULL	NULL	beta-hydroxyacyl-ACP dehydratase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Hydroxyacyl-ACP Dehydrase	NULL	NULL	T31P16.150	At5g10160	NULL	NULL	beta-hydroxyacyl-ACP dehydratase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Enoyl-ACP Reductase	NULL	NULL	T6P5.19	At2g05990	NULL	NULL	"enoyl-(acyl-carrier protein) reductase (NADH) (enr-A), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	F28H19.7	At1g43800	NULL	NULL	"acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	F18O19.18	At2g43710	NULL	NULL	acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	F16B3.24	At3g02610	NULL	NULL	"acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	F16B3.25	At3g02620	NULL	NULL	"acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	F16B3.26	At3g02630	NULL	NULL	"acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	T21H19.150	At5g16230 	NULL	NULL	"acyl-[acyl-carrier-protein] desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Stearoyl-ACP Desaturase	NULL	NULL	T21H19.160	At5g16240	NULL	NULL	"acyl-(acyl-carrier-protein) desaturase (stearoyl-ACP desaturase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Acyl Carrier Protein	NULL	NULL	T22H22.3	At1g54580	NULL	NULL	"acyl carrier protein (ACP), chloroplast, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Acyl Carrier Protein	ACP3	NULL	T22H22.7	At1g54630	NULL	NULL	"acyl carrier protein 3 (ACP), chloroplast"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Acyl Carrier Protein	ACP1	NULL	T9J14.3	At3g05020	NULL	NULL	"acyl carrier protein 1 (ACP), chloroplast"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Acyl Carrier Protein	NULL	NULL	F13M23.190	At4g25050	NULL	NULL	acyl carrier protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Acyl Carrier Protein	NULL	NULL	T21B4.110	At5g27200	NULL	NULL	"acyl carrier protein, chloroplast, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Holo-ACP Synthase	NULL	NULL	F24K9.14	At3g11470	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Dihydroxyacetone-Phosphate Reductase	NULL	NULL	MNF13.130	At5g40610	NULL	NULL	dihydroxyacetone 3-phosphate reductase (dhaprd)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Phosphatidic Acid Phosphatase	NULL	NULL	F10A8.6	At2g01180 	NULL	NULL	phosphatidic acid phosphatase (PAP2) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monogalactosyldiacylglycerol Synthase	NULL	NULL	F7E22.4	At2g11810 	NULL	NULL	"1,2-diacylglycerol 3-beta-galactosyltransferase (UDP-galactose:diacylglycerol galactosyltransferase) (MGDG synthase) (MGD3), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monogalactosyldiacylglycerol Synthase	NULL	NULL	F28M20.30	At4g31780	NULL	NULL	"1,2-diacylglycerol 3-beta-galactosyltransferase (UDP-galactose:diacylglycerol galactosyltransferase) (MGDG synthase) (MGD1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monogalactosyldiacylglycerol Synthase	NULL	NULL	F5O24.300	At5g20410	NULL	NULL	"1,2-diacylglycerol 3-beta-galactosyltransferase (UDP-galactose:diacylglycerol galactosyltransferase) (MGDG synthase) (MGD2), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Monogalactosyldiacylglycerol Desaturase (palmitate-specific, FAD5)"	NULL	NULL	MSJ11.25	At3g15850	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Digalactosyldiacylglycerol Synthase	NULL	NULL	T19F11.7	At3g11670	NULL	NULL	digalactosyldiacylglycerol synthase 1 (MGDG:MGDG galactosyltransferase) (galactolipid galactosyltransferase) (DGD1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Digalactosyldiacylglycerol Synthase	NULL	NULL	F6N23.24	At4g00550	NULL	NULL	UDP-galactose:MGDG galactosyltransferase (digalactosyldiacylglycerol synthase 2) (DGD2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sulfolipid Biosynthesis Protein	NULL	NULL	F26P21.150	At4g33030	NULL	NULL	UDP-sulfoquinovose synthase (sulfite:UDP-glucose sulfotransferase) (sulfolipid biosynthesis protein) (SQD1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sulfolipid Synthase	NULL	NULL	F7J8.200	At5g01220	NULL	NULL	UDP-sulfoquinovose:DAG sulfoquinovosyltransferase (sulfolipid synthase) (SQD2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Glycerol-Phosphate Acyltransferase	NULL	NULL	F3C3.13	At1g32200	NULL	NULL	"glycerol-3-phosphate acyltransferase, chloroplast"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial 1-acylglycerol-Phosphate Acyltransferase 	NULL	NULL	F17I23.80	At4g30580	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial CDP-Diacylglycerol Synthetase	NULL	NULL	T14P1.4	At2g45150	NULL	NULL	phosphatidate cytidylyltransferase domain-containing protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial CDP-Diacylglycerol Synthetase	NULL	NULL	T4C21.30	At3g60620	NULL	NULL	phosphatidate cytidylyltransferase domain-containing protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial CDP-Diacylglycerol Synthetase	NULL	NULL	F10M23.110	At4g26770	NULL	NULL	"phosphatidate cytidylyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Phosphatidylglycerol-Phosphate Synthase	NULL	NULL	T16B24.7	At2g39290	NULL	NULL	phosphatidylglycerolphosphate synthase (PGS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Oleate Desaturase (FAD6)	Fad6	NULL	F6I18.140	At4g30950	NULL	NULL	"omega-6 fatty acid desaturase, chloroplast (FAD6) (fadC) (delta-12 desaturase)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Linoleate Desaturase (FAD7/FAD8)	Fad7	NULL	F9F8.4	At3g11170	NULL	NULL	"omega-3 fatty acid desaturase, chloroplast precursor (FAD7)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Linoleate Desaturase (FAD7/FAD8)	Fad8	NULL	MOP10.12	At5g05580	NULL	NULL	"omega-3 fatty acid desaturase, chloroplast precursor (FAD8)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Dihydroxyacetone-Phosphate Reductase 	NULL	NULL	T7D17.13	At2g40690	NULL	NULL	glycerol-3-phosphate dehydrogenase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Dihydroxyacetone-Phosphate Reductase 	NULL	NULL	T32G6.6	At2g41540	NULL	NULL	glycerol-3-phosphate dehydrogenase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Dihydroxyacetone-Phosphate Reductase 	NULL	NULL	F17A17.3	At3g07690	NULL	NULL	glycerol-3-phosphate dehydrogenase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Dihydroxyacetone-Phosphate Reductase 	NULL	NULL	F14P13.3	At3g10370	NULL	NULL	"glycerol-3-phosphate dehydrogenase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Synthase	NULL	NULL	T23K23.15	At1g68000	NULL	NULL	CDP-diacylglycerol--inositol 3-phosphatidyltransferase (phosphatidylinositol synthase) (PIS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Synthase	NULL	NULL	F20M13.130	At4g38570	NULL	NULL	"CDP-diacylglycerol--inositol 3-phosphatidyltransferase (phosphatidylinositol synthase) (PIS1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Choline Kinase 	NULL	NULL	F12G12.29	At1g34100	NULL	NULL	choline kinase (GmCK2p) -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Choline Kinase 	NULL	NULL	F14O23.8	At1g71697	NULL	NULL	choline kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Choline Kinase 	NULL	NULL	F1O17.1	At1g74320	NULL	NULL	choline kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Choline Kinase 	NULL	NULL	F17A8.110	At4g09760	NULL	NULL	choline kinase GmCK2p -related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ethanolamine Kinase	NULL	NULL	F12C20.13	At2g26830	NULL	NULL	choline kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CTP : Cholinephosphate Cytidylyltransferase	NULL	NULL	T32F6.22	At2g32260	NULL	NULL	"cholinephosphate cytidylyltransferase (phosphorylcholine transferase/CTP:phosphocholine cytidylyltransferase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CTP : Cholinephosphate Cytidylyltransferase	NULL	NULL	FCAALL.209	At4g15130	NULL	NULL	"cholinephosphate cytidylyltransferase (phosphorylcholine transferase/CTP:phosphocholine cytidylyltransferase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CTP : Ethanolaminephosphate Cytidylyltransferase 	NULL	NULL	T6A23.13	At2g38670	NULL	NULL	"ethanolamine-phosphate cytidylyltransferase (phosphorylethanolamine transferase/CTP:phosphoethanolamine cytidylyltransferase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylserine Decarboxylase	NULL	NULL	FCAALL.4	At4g16700 	NULL	NULL	phosphatidylserine decarboxylase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylserine Decarboxylase	NULL	NULL	F14M19.6	At4g25970	NULL	NULL	"phosphatidylserine decarboxylase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylserine Decarboxylase	NULL	NULL	MUL3.14	At5g57190 	NULL	NULL	"phosphatidylserine decarboxylase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Base-Exchange Enzyme	NULL	NULL	F9L1.4	At1g15110	NULL	NULL	phosphatidylserine synthase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Serine Palmitoyltransferase (LCB1 subunit)	NULL	NULL	AP22.60	At4g36480	NULL	NULL	serine C-palmitoyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Serine Palmitoyltransferase (LCB2 subunit)	NULL	NULL	T21J18.50	At3g48780	NULL	NULL	"serine C-palmitoyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Serine Palmitoyltransferase (LCB2 subunit)	NULL	NULL	MQM1.6	At5g23670	NULL	NULL	"serine C-palmitoyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketosphinganine Reductase	NULL	NULL	F24F17.4	At3g06060	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketosphinganine Reductase	NULL	NULL	T24G5.100	At5g19200	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid Hydroxylase	NULL	NULL	F14L17.5	At1g14290	NULL	NULL	sterol desaturase domain-containing protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid Hydroxylase	NULL	NULL	T6C23.16	At1g69640	NULL	NULL	"acid phosphatase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid delta 8 Desaturase	NULL	NULL	T3F17.14	At2g46210	NULL	NULL	"delta-8 sphingolipid desaturase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid delta 8 Desaturase	NULL	NULL	F2A19.180	At3g61580	NULL	NULL	delta-8 sphingolipid desaturase (SLD1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid Fatty Acid Hydroxylase	NULL	NULL	T29F13.2	At2g34770	NULL	NULL	fatty acid hydroxylase (FAH1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid Fatty Acid Hydroxylase	NULL	NULL	T13K14.30	At4g20870	NULL	NULL	"fatty acid hydroxylase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphoethanolamine N-Methyltransferase	NULL	NULL	T1N15.23	At1g48600	NULL	NULL	phosphoethanolamine N-methyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphoethanolamine N-Methyltransferase	NULL	NULL	F6D5.1	At1g73600	NULL	NULL	phosphoethanolamine N-methyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphoethanolamine N-Methyltransferase	NULL	NULL	MEB5.22	At3g18000	NULL	NULL	"phosphoethanolamine N-methyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingolipid delta 4 Desaturase	NULL	NULL	T1J1.1	At4g04930	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F22L4.15	At1g01610	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F11M15.12	At1g51260	NULL	NULL	"acyl-CoA:1-acylglycerol-3-phosphate acyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F9E10.13	At1g75020b	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F9K20.27	At1g78690	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F23A5.31	At1g80950	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	T20P8.14	At2g27090	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F16M14.4	At2g38110	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F22F7.4	At3g05510	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F24K9.10	At3g11430	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	MCB22.2	At3g18850 	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F15B8.160	At3g57650	NULL	NULL	"acyl-CoA:1-acylglycerol-3-phosphate acyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	F5I10.4	At4g00400	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER 2-Lysophosphatidate Acyltransferase (LPAAT)	NULL	NULL	K16F4.5	At5g06090	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Phosphatidate Phosphatase	NULL	NULL	F9L1.2	At1g15080	NULL	NULL	phosphatidic acid phosphatase (PAP2) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Cholinephosphotransferase	NULL	NULL	T5M7.1	At3g25585	NULL	NULL	"aminoalcoholphosphotransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Oleate Desaturase	Fad2	NULL	T21B14.6	At3g12120	NULL	NULL	"omega-6 fatty acid desaturase, endoplasmic reticulum (FAD2/delta-12 desaturase)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Linoleate Desaturase	Fad3	NULL	F23F1.10	At2g29980	NULL	NULL	"omega-3 fatty acid desaturase, endoplasmic reticulum (FAD3)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER CDP-Diacylglycerol Synthetase	NULL	NULL	F24O1.17	At1g62430	NULL	NULL	phosphatidate cytidylyltransferase (CDS)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER CDP-Diacylglycerol Synthetase	NULL	NULL	T10I14.170	At4g22340	NULL	NULL	"phosphatidate cytidylyltransferase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ER Phosphatidylglycerophosphate Synthase	NULL	NULL	T15C9.30	At3g55030	NULL	NULL	"phosphatidylglycerolphosphate synthase (PGS1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-Ceramide Synthase	NULL	NULL	F17L21.27	At1g27480 	NULL	NULL	lecithin:cholesterol acyltransferase (LACT) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-Ceramide Synthase	NULL	NULL	T21P5.27	At3g03310	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Ketoacyl-ACP Synthase	NULL	NULL	T1O3.5	At2g04540	NULL	NULL	3-oxoacyl carrier protein synthase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"alpha-Ketoacid Decarboxylase E1 alpha subunit, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	F24J8.4	At1g21400	NULL	NULL	branched-chain alpha keto-acid dehydrogenase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"alpha-Ketoacid Decarboxylase E1 alpha subunit, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	T5E8.100	At5g09300	NULL	NULL	branched-chain alpha keto-acid dehydrogenase E1 alpha subunit-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"alpha-Ketoacid Decarboxylase E1 beta subunit, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	T5A14.9	At1g55510	NULL	NULL	branched-chain alpha-keto acid decarboxylase E1 beta subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"alpha-Ketoacid Decarboxylase E1 beta subunit, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	MRP15.9	At3g13450	NULL	NULL	branched chain alpha-keto acid dehydrogenase E1 beta subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Dihydrolipoamide Transacylase, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	F3E22.1	At3g06850	NULL	NULL	branched chain alpha-keto acid dehydrogenase E2 subunit	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Mitochondrial Dihydrolipoamide Dehydrogenase, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	T2J15.6	At1g48030	NULL	NULL	"dihydrolipoamide dehydrogenase, mitochondrial (lipoamide dehydrogenase) (mtlpd1)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Mitochondrial Dihydrolipoamide Dehydrogenase, branched chain alpha-ketoacid dehydrogenase complex"	NULL	NULL	MGD8.7	At3g17240	NULL	NULL	"dihydrolipoamide dehydrogenase 2, mitochondrial (lipoamide dehydrogenase 2) (mtlpd2)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Isovaleryl-CoA Dehydrogenase	NULL	NULL	F18N11.60	At3g45300	NULL	NULL	isovaleryl-CoA-dehydrogenase precursor (IVD)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Methylcrotonyl-CoA Carboxylase, biotinylated subunit"	NULL	NULL	F10O3.9	At1g03090	NULL	NULL	3-methylcrotonyl-CoA carboxylase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	"Methylcrotonyl-CoA Carboxylase, non-biotinylated subunit"	NULL	NULL	F28A23.210	At4g34030	NULL	NULL	3-methylcrotonyl-CoA carboxylase non-biotinylated subunit (MCCB)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Enoyl-CoA Hydratase 	NULL	NULL	T8B10.170	At3g60510	NULL	NULL	enoyl-CoA hydratase/isomerase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Enoyl-CoA Hydratase 	NULL	NULL	F11C18.10	At4g31810	NULL	NULL	3-hydroxyisobutyryl-coenzyme A hydrolase (CoA-thioester hydrolase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Glycerol-Phosphate Acyltransferase	NULL	NULL	T6A9.8	At1g02390	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Glycerol-Phosphate Acyltransferase	NULL	NULL	F12K11.15	At1g06520	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Glycerol-Phosphate Acyltransferase	NULL	NULL	T7B11.21	At4g01950	NULL	NULL	phospholipid/glycerol acyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Phosphatidate Phosphatase	NULL	NULL	F16B3.23	At3g02600	NULL	NULL	phosphatidic acid phosphatase (PAP2) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Acyl Carrier Protein	NULL	NULL	T8F5.6	At1g65290	NULL	NULL	acyl carrier protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Acyl Carrier Protein	NULL	NULL	F16B22.11	At2g44620	NULL	NULL	"acyl carrier protein (ACP), mitochondrial"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Acyl Carrier Protein	NULL	NULL	MNJ7.22	At5g47630	NULL	NULL	acyl carrier protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Ketoacyl-ACP Reductase	NULL	NULL	F9N12.18	At1g63380	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Lipoate Synthase	Lip1	NULL	F5H14.17	At2g20860	NULL	NULL	lipoic acid synthase (LIP1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Lipoyltransferase	NULL	NULL	T1G11.11	At1g04640	NULL	NULL	lipoyltransferase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Lipoyltransferase	NULL	NULL	F16N3.14	At1g47580	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Phosphatidylglycerol-Phosphate Synthase	NULL	NULL	T4B21.19	At4g04870	NULL	NULL	CDP-alcohol phosphatidyltransferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Mitochondrial Diacylglycerol Cholinephosphotransferase	NULL	NULL	F13B4.5	At1g13560	NULL	NULL	aminoalcoholphosphotransferase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA : Diacylglycerol Acyltransferase	NULL	NULL	F27F23.24	At2g19450 	NULL	NULL	diacylglycerol O-acyltransferase (acyl CoA:diacylglycerol acyltransferase) (DGAT)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA : Diacylglycerol Acyltransferase	NULL	NULL	F26O13.160	At3g51520	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	F27J15.22	At1g48990 	NULL	NULL	glycine-rich protein / oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	F17H15.8	At2g25890	NULL	NULL	oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	F4P13.12	At3g01570 	NULL	NULL	glycine-rich protein / oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	K24M9.6	At3g18570 	NULL	NULL	glycine-rich protein / oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	MGF10.3	At3g27660	NULL	NULL	oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	F24A6.9	At4g25140 	NULL	NULL	oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	MPO12.130 	At5g40420 	NULL	NULL	glycine-rich protein / oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oil-body Oleosin	NULL	NULL	MWD22.16 	At5g51210 	NULL	NULL	glycine-rich protein / oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F26F24.33	At1g23240	NULL	NULL	pollen coat EF-hand protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F26F24.9	At1g23250	NULL	NULL	"Ca2+-binding EF-hand common family protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F5A18.15	At1g70670	NULL	NULL	"Ca2+-binding EF-hand common family protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F5A18.14	At1g70680	NULL	NULL	"Ca2+-binding EF-hand common family protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F4P9.15	At2g33380	NULL	NULL	RD20 protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	F10M23.80	At4g26740	NULL	NULL	embryo-specific protein 1 (ATS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Caleosin	NULL	NULL	MCO15.19	At5g55240	NULL	NULL	embryo-specific protein 1 (ATS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylcholine : Diacylglycerol Acyltransferase	NULL	NULL	F21M11.5	At1g04010	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylcholine : Diacylglycerol Acyltransferase	NULL	NULL	F28D10.20	At3g44830	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylcholine : Diacylglycerol Acyltransferase	NULL	NULL	MSH12.10	At5g13640	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Triacylglycerol Lipase	NULL	NULL	F20B24.17	At1g10740	NULL	NULL	lipase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Triacylglycerol Lipase	NULL	NULL	F15A23.3	At2g15230	NULL	NULL	lipase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Triacylglycerol Lipase	NULL	NULL	T1A4.10	At5g18630	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Triacylglycerol Lipase	NULL	NULL	T1A4.20	At5g18640	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Alcohol Oxidase	NULL	NULL	F21M11.7	At1g03990	NULL	NULL	alcohol oxidase-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Alcohol Oxidase	NULL	NULL	MLM24.14	At3g23410	NULL	NULL	alcohol oxidase-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Alcohol Oxidase	NULL	NULL	T5K18.160	At4g19380	NULL	NULL	alcohol oxidase-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Alcohol Oxidase	NULL	NULL	T5F17.20	At4g28570	NULL	NULL	alcohol oxidase-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Peroxisomal Long-Chain Acyl-CoA Synthetase	NULL	NULL	F2O10.7	At3g05970	NULL	NULL	"AMP-binding protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Peroxisomal Long-Chain Acyl-CoA Synthetase	NULL	NULL	F15A18.60	At5g27600	NULL	NULL	"AMP-binding protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Peroxisomal Fatty Acid Acyl-CoA Transporter	NULL	NULL	T5J17.20	At4g39850	NULL	NULL	peroxisomal ABC transporter PXA1	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T19D16.3	At1g11090	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F15H18.13	At1g18360	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F14G24.3	At1g52760	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T9L24.33	At1g73480	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F2P24.13	At1g77420	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F12L6.6	At2g39400	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F12L6.26	At2g39410	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	F12L6.8	At2g39420	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T30B22.36	At2g47630	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T26I12.60	At3g55180	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T26I12.70	At3g55190	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T22P22.40	At5g11650	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Monoacylglycerol Lipase 	NULL	NULL	T21H19.40	At5g16120	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	T2D23.1	At1g06290	NULL	NULL	acyl-CoA oxidase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	T2D23.2	At1g06310	NULL	NULL	acyl-CoA oxidase ACX3 -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	T20F21.12	At2g35690	NULL	NULL	acyl-CoA oxidase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	ATEM1.9	At3g51840	NULL	NULL	acyl-coA dehydrogenase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	FCAALL.119	At4g16760	NULL	NULL	acyl-CoA oxidase like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Oxidase	NULL	NULL	MQN23.4	At5g65110	NULL	NULL	acyl-CoA oxidase (gb|AAC13497.1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Peroxisomal Enoyl-CoA Hydratase	NULL	NULL	F8A5.9	At1g60550	NULL	NULL	"naphthoate synthase (DHNA synthetase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Peroxisomal Enoyl-CoA Hydratase	NULL	NULL	MNL12.10	At5g43280	NULL	NULL	enoyl-CoA hydratase/isomerase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Hydroxyacyl-CoA Dehydrogenase 	NULL	NULL	K7L4.9	At3g15290	NULL	NULL	"3-hydroxybutyryl-CoA dehydrogenase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA thiolase 	NULL	NULL	T1G11.4	At1g04710	NULL	NULL	"acetyl-CoA C-acyltransferase (3-ketoacyl-CoA thiolase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA thiolase 	NULL	NULL	F25I18.11	At2g33150	NULL	NULL	"acetyl-CoA C-acyltransferase (3-ketoacyl-CoA thiolase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA thiolase 	NULL	NULL	K24G6.22	At5g48880	NULL	NULL	acetyl-CoA C-acyltransferase 1 (3-ketoacyl-CoA thiolase 1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Multifunctional Protein	NULL	NULL	F17A9.1	At3g06860	NULL	NULL	fatty acid multifunctional protein (AtMFP2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Multifunctional Protein	NULL	NULL	F25O24.11	At4g29010	NULL	NULL	abnormal inflorescence meristem 1 (fatty acid multifunctional protein) (AIM1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Dienoyl-CoA Reductase 	NULL	NULL	MBK21.23 	At3g12800	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Hydroxyisobutyryl-CoA Hydrolase 	NULL	NULL	T11J7.4	At2g30650	NULL	NULL	"3-hydroxyisobutyryl-coenzyme A hydrolase (CoA-thioester hydrolase) (CHY1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Hydroxyisobutyryl-CoA Hydrolase 	NULL	NULL	T11J7.5	At2g30660	NULL	NULL	"3-hydroxyisobutyryl-coenzyme A hydrolase (CoA-thioester hydrolase) (CHY1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Hydroxyisobutyryl-CoA Hydrolase 	NULL	NULL	K14B20.11	At5g65940	NULL	NULL	3-hydroxyisobutyryl-coenzyme A hydrolase (CoA-thioester hydrolase) (CHY1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Dehydrogenase 	NULL	NULL	F3E22.5	At3g06810	NULL	NULL	acetyl-coA dehydrogenase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	MSF3.11	At2g18730	NULL	NULL	diacylglycerol kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	F5H14.13	At2g20900	NULL	NULL	diacylglycerol kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	T3F17.26	At2g46090	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	F26K10.10	At4g28130	NULL	NULL	diacylglycerol kinase (fragment) -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	F17I23.320	At4g30340	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	MXM12.12	At5g07920	NULL	NULL	diacylglycerol kinase (ATDGK1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	MRI1.5	At5g57690	NULL	NULL	diacylglycerol kinase-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Kinase 	NULL	NULL	MBK5.25	At5g63770	NULL	NULL	diacylglycerol kinase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Secretory Phospholipase A2	NULL	NULL	F6F22.28	At2g19690	NULL	NULL	phospholipase A2 family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Secretory Phospholipase A2	NULL	NULL	F25O24.16	At4g29070	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Secretory Phospholipase A2	NULL	NULL	F17A13.280	At4g29460	NULL	NULL	phospholipase A2 family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Secretory Phospholipase A2	NULL	NULL	F17A13.290	At4g29470	NULL	NULL	phospholipase A2 family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Phospholipase A2 	NULL	NULL	F8K4.6	At1g61850	NULL	NULL	patatin family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Phospholipase A2 	NULL	NULL	F16L2.90	At3g45880	NULL	NULL	phospholipase - like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	F6D8.5	At1g52700	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	F1N19.24	At1g64670	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	T7M13.8	At3g10840	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	MSJ11.7	At3g15650	NULL	NULL	lysophospholipase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	T10I14.130	At4g22300	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	F2G14.100	At5g14980	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	MVA3.14	At5g17780	NULL	NULL	"hydrolase, alpha/beta fold family"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	F7K24.40	At5g19290	NULL	NULL	esterase/lipase/thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lysophospholipase	NULL	NULL	F28I16.210	At5g20060	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T20M3.6	At1g05800	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	F9P14.11	At1g06250	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	F4H5.11	At1g06800	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T4K22.3	At1g30370	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	F5D21.19	At1g51440	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T6B20.10	At2g30550	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T16B12.9	At2g31100	NULL	NULL	"lipase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T9H9.21	At2g31690	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	F7D19.31	At2g42690	NULL	NULL	"lipase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	T13E15.18	At2g44810	NULL	NULL	defective in anther dehiscence1	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	FCAALL.42	At4g16820	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	DAD1-like Acylhydrolase	NULL	NULL	F28J12.210	At4g18550	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Lipoxygenase 	NULL	NULL	F14C21.54	At1g55020	NULL	NULL	lipoxygenase (LOX1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Lipoxygenase 	NULL	NULL	MCB17.13	At3g22400	NULL	NULL	"lipoxygenase (LOX), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoxygenase 	NULL	NULL	F1L3.11	At1g17420	NULL	NULL	"lipoxygenase (LOX), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoxygenase 	NULL	NULL	F12B7.11	At1g67560	NULL	NULL	lipoxygenase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoxygenase 	NULL	NULL	T10D10.1	At1g72520	NULL	NULL	"lipoxygenase (LOX), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Lipoxygenase 	NULL	NULL	T14D3.80	At3g45140	NULL	NULL	lipoxygenase (LOX2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Allene Oxide Synthase 	NULL	NULL	MFO20.7	At5g42650	NULL	NULL	allene oxide synthase / cytochrome P450 74A	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Allene Oxide Cyclase	NULL	NULL	T6J4.4	At1g13280	NULL	NULL	allene oxide cyclase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Allene Oxide Cyclase	NULL	NULL	K13N2.10	At3g25760	NULL	NULL	allene oxide cyclase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Allene Oxide Cyclase	NULL	NULL	K13N2.11	At3g25770	NULL	NULL	allene oxide cyclase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Allene Oxide Cyclase	NULL	NULL	K13N2.12	At3g25780	NULL	NULL	allene oxide cyclase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oxo-Phytodienoic Acid Reductase (OPR) 	NULL	NULL	F14J9.6	At1g09400	NULL	NULL	"12-oxophytodienoate reductase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oxo-Phytodienoic Acid Reductase (OPR) 	NULL	NULL	F2H15.21	At1g17990	NULL	NULL	"12-oxophytodienoate reductase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oxo-Phytodienoic Acid Reductase (OPR) 	NULL	NULL	F28O16.5	At1g76680	NULL	NULL	12-oxophytodienoate reductase (OPR1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oxo-Phytodienoic Acid Reductase (OPR) 	NULL	NULL	F28O16.6	At1g76690	NULL	NULL	12-oxophytodienoate reductase (OPR2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Oxo-Phytodienoic Acid Reductase (OPR) 	NULL	NULL	F5K7.19	At2g06050	NULL	NULL	12-oxophytodienoate reductase (OPR3)(DDE1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Hydroperoxide Lyase	NULL	NULL	FCAALL.125	At4g15440	NULL	NULL	hydroperoxide lyase (HPOL) like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-3-Kinase	NULL	NULL	F8A5.4	At1g60490 	NULL	NULL	phosphatidylinositol 3-kinase (PI3K)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Amide Hydrolase 	NULL	NULL	F7G19.15	At1g08980	NULL	NULL	amidase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Amide Hydrolase 	NULL	NULL	T2I1.70	At5g07360	NULL	NULL	amidase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid Amide Hydrolase 	NULL	NULL	T12B11.3	At5g64440	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	a-Dioxygenase-Peroxidase (involved in FA alpha-oxidation)	NULL	NULL	F25P22.10	At1g73680	NULL	NULL	feebly-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	a-Dioxygenase-Peroxidase (involved in FA alpha-oxidation)	NULL	NULL	T13O15.6	At3g01420	NULL	NULL	feebly-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	NAD+ Oxidoreductase (involved in FA alpha-oxidation)	NULL	NULL	F15I1.19	At1g54100	NULL	NULL	"aldehyde dehydrogenase, putative (ALDH)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PTEN-like Phosphoinositide 3-Phosphatase	NULL	NULL	MVI11.21	At3g19240	NULL	NULL	dem-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PTEN-like Phosphoinositide 3-Phosphatase	NULL	NULL	F3A4.190	At3g50110	NULL	NULL	tyrosine phosphatase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PTEN-like Phosphoinositide 3-Phosphatase	NULL	NULL	MUL8.8	At5g39400	NULL	NULL	PTEN -related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Myotubularin-like Phosphoinositide 3-Phosphatase	NULL	NULL	F13M14.17	At3g10550	NULL	NULL	myotubularin -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Myotubularin-like Phosphoinositide 3-Phosphatase	NULL	NULL	T32M21.150	At5g04540	NULL	NULL	myotubularin - like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Type II Phosphoinositide 5-Phosphatase	NULL	NULL	F3F20.8	At1g05630	NULL	NULL	"inositol 1,4,5-trisphosphate 5-phosphatase -related"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Type II Phosphoinositide 5-Phosphatase	NULL	NULL	F5I14.11	At1g65580	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Type II Phosphoinositide 5-Phosphatase	NULL	NULL	F20M17.13	At2g31830	NULL	NULL	inositol polyphosphate 5'-phosphatase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Type II Phosphoinositide 5-Phosphatase	NULL	NULL	F6E13.3	At2g43900	NULL	NULL	inositol polyphosphate 5'-phosphatase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	F28G4.21	At1g17340	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	T22J18.20	At1g22620	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	MAG2.20	At3g14205	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	F7K15.70	At3g43220	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	F26O13.100	At3g51460	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	ATEM1.8	At3g51830	NULL	NULL	transmembrane protein G5p (AtG5) -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	F24G16.40	At3g59770	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	F22D1.10	At5g20840	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sac domain-containing Phosphoinositide 5-Phosphatase	NULL	NULL	K2A18.9	At5g66020	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	T16O9.13	At1g33270	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	T9J22.23	At2g26560	NULL	NULL	"patatin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	T16B24.14	At2g39220	NULL	NULL	patatin family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	F28P10.70	At3g54950	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	F24I3.220	At3g57140	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	F16M2.50	At3g63200	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	F27B13.40	At4g29800	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	AP22.16	At4g37050	NULL	NULL	"patatin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	AP22.93	At4g37060	NULL	NULL	"patatin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	AP22.83	At4g37070	NULL	NULL	"patatin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	F8F6.250	At5g04040	NULL	NULL	patatin-related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Patatin-like Acyl-Hydrolase	NULL	NULL	K9D7.9	At5g43590	NULL	NULL	"patatin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Diacylglycerol Pyrophosphate Phosphatase	NULL	NULL	MIE15.1	At3g18220	NULL	NULL	phosphatidic acid phosphatase (PAP2) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase a	NULL	NULL	F13F21.23	At1g49340	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase a	NULL	NULL	F23H24.10	At1g51040 	NULL	NULL	"phosphatidylinositol 4-kinase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase b	NULL	NULL	T5E8.150	At5g09350  	NULL	NULL	"phosphatidylinositol 4-kinase (PI4K), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase b	NULL	NULL	MHJ24.5	At5g64070 	NULL	NULL	phosphatidylinositol 4-kinase (PI4K)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	F21F23.8	At1g13640	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	F28B23.7	At1g26270	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	F1N19.4 + F1N19.30	At1g64460+At1g64470	NULL	NULL	phosphatidylinositol 3- and 4-kinase family + ubiquitin family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	T18C20.9	At2g03890	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	T20B5.5	At2g40850	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	F13A10.3	At2g46500	NULL	NULL	ubiquitin family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	T5P19.250	At3g56600	NULL	NULL	phosphatidylinositol 3- and 4-kinase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol-4-Kinase g	NULL	NULL	MOP9.5	At5g24240	NULL	NULL	ubiquitin family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II A	NULL	NULL	F22L4.2	At1g01460	NULL	NULL	"4,5 PIP kinase -related"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II A	NULL	NULL	F2N1.9	At4g01190	NULL	NULL	phosphatidylinositol kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	T19D16.18	At1g10900	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase isolog	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	F2E2.1	At1g21980	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	T7P1.4	At1g60890	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	T32E8.7	At1g77740	NULL	NULL	phosphatidylinositol-4-phosphate-5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	T9J22.9	At2g26420	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	T3K9.2	At2g41210	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	F17A17.30	At3g07960	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	F8A24.2	At3g09920	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type I/II B	NULL	NULL	F24I3.40	At3g56960	NULL	NULL	phosphatidylinositol-4-phosphate 5-kinase-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type III	NULL	NULL	F23M19.8	At1g34260	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type III	NULL	NULL	F15H11.20	At1g71010	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type III	NULL	NULL	MLN21.6	At3g14270	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phosphatidylinositol Phosphate Kinase type III	NULL	NULL	F4I10.170	At4g33240	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	F27I1.5	At2g40116	NULL	NULL	phosphoinositide specific phospholipase C(AtPLC2) -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	T8G24.4	At3g08510	NULL	NULL	phosphoinositide specific phospholipase C(AtPLC2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	F13I12.270	At3g47220	NULL	NULL	"1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase-related protein"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	T21L8.40	At3g47290	NULL	NULL	"1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	F27K19.120	At3g55940	NULL	NULL	"phosphoinositide specific phospholipase C, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	F22I13.3	At4g38530	NULL	NULL	phosphoinositide-specific phospholipase C	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	MZN1.12	At5g58670	NULL	NULL	phosphoinositide specific phospholipase C	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	MZN1.15	At5g58690	NULL	NULL	"phosphoinositide-specific phospholipase C, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PI-specific Phospholipase C	NULL	NULL	MZN1.19	At5g58700	NULL	NULL	phosphoinositide-specific phospholipase - like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	F10K1.6	At1g07230	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	F12C20.9	At2g26870	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	T12J13.19	At3g03520	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	T12J13.21	At3g03530	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	T12J13.18	At3g03540	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Non specific Phospholipase C	NULL	NULL	T8P19.120	At3g48610	NULL	NULL	phosphoesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	GPI-specific Phospholipase C	NULL	NULL	F11I11.160	At4g34920	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	GPI-specific Phospholipase C	NULL	NULL	F11I11.170	At4g34930	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	GPI-specific Phospholipase C	NULL	NULL	F20M13.250	At4g38690	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D alpha	NULL	NULL	F6D8.21	At1g52570	NULL	NULL	"phospholipase D, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D alpha	NULL	NULL	F7A10.25	At1g55180	NULL	NULL	"phospholipase D, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D alpha	NULL	NULL	MSJ11.13	At3g15730	NULL	NULL	"Phospholipase D, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D alpha	NULL	NULL	F18G18.110	At5g25370	NULL	NULL	"phospholipase D, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D beta	NULL	NULL	T6D20.10	At2g42010	NULL	NULL	phospholipase D (PLDbeta)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase D beta	NULL	NULL	F5I10.13	At4g00240	NULL	NULL	phospholipase D -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D gamma	NULL	NULL	T26M18.40	At4g11830	NULL	NULL	"phospholipase D-gamma, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D gamma	NULL	NULL	T26M18.50	At4g11840	NULL	NULL	"phospholipase D-gamma, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D gamma	NULL	NULL	T26M18.60	At4g11850	NULL	NULL	"phospholipase D-gamma, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D delta	NULL	NULL	F4B14.60	At4g35790	NULL	NULL	phospholipase D -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D zata	NULL	NULL	F18C1.10	At3g05630	NULL	NULL	phospholipase D family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Other Phospholipase D zata	NULL	NULL	K20I9.1	At3g16785	NULL	NULL	phospholipase D zeta1 (5' fragment)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase A1 	NULL	NULL	T8E3.1	At1g31480	NULL	NULL	shoot gravitropism 2	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Phospholipase A2-activating Protein	NULL	NULL	MCB22.3	At3g18860	NULL	NULL	transducin / WD-40 repeat protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	T25K16.11	At1g01120	NULL	NULL	fatty acid elongase 3-ketoacyl-CoA synthase 1 (KCS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F20D22.1	At1g04220	NULL	NULL	"beta-ketoacyl-CoA synthase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F24B9.18	At1g07720	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	K19E20.21	At5g49070	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F18O14.21	At1g19440	NULL	NULL	"very-long-chain fatty acid condensing enzyme (CUT1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F2J7.9	At1g25450	NULL	NULL	"very-long-chain fatty acid condensing enzyme (CUT1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	Cut1	NULL	T26J14.10	At1g68530	NULL	NULL	very-long-chain fatty acid condensing enzyme (CUT1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F23N20.15	At1g71160	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	T15J14.13	At2g15090	NULL	NULL	"fatty acid elongase 1 (FAE1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F16F14.22	At2g16280	NULL	NULL	"very-long-chain fatty acid condensing enzyme (CUT1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	Fdh	NULL	T1D16.11	At2g26250	NULL	NULL	beta-ketoacyl-CoA synthase family (FIDDLEHEAD) (FDH)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F18A8.1	At2g26640	NULL	NULL	"beta-ketoacyl-CoA synthase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	T8O18.8	At2g28630	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	Kcs1	NULL	T3A4.10	At2g46720	NULL	NULL	"fatty acid elongase 3-ketoacyl-CoA synthase 1 (KCS1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F4F15.270	At3g52160	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	F10M10.20	At4g34250	NULL	NULL	"fatty acid elongase 1 (FAE1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	T4L20.90	At4g34510	NULL	NULL	"fatty acid elongase 1 (FAE1), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	Fae	NULL	T4L20.100	At4g34520	NULL	NULL	fatty acid elongase 1 (FAE1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	T32M21.130	At5g04530	NULL	NULL	beta-ketoacyl-CoA synthase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Synthase	NULL	NULL	MQD19.11	At5g43760	NULL	NULL	"beta-ketoacyl-CoA synthase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	F6F3.8	At1g01280	NULL	NULL	cytochrome P450 family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	F22L4.14	At1g01600	NULL	NULL	"cytochrome P450, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	F24D7.10	At1g63710	NULL	NULL	"cytochrome P450, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	F4I18.5	At2g45970	NULL	NULL	"cytochrome P450, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	F5I10.21	At4g00360 	NULL	NULL	"cytochrome p450, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	MYH9.18 	At5g09970 	NULL	NULL	cytochrome p450 family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	K19M22.14	At5g58860	NULL	NULL	cytochrome P450 86A1	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Fatty Acid omega Hydroxylase	NULL	NULL	MLE2.8	At5g63450	NULL	NULL	"cytochrome P450, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Reductase	NULL	NULL	F21J9.13	At1g24470	NULL	NULL	short-chain dehydrogenase/reductase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Ketoacyl-CoA Reductase	NULL	NULL	F12A21.14	At1g67730	NULL	NULL	"short chain dehydrogenase/reductase family protein (b-keto acyl reductase, putative)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Enoyl-CoA Reductase	NULL	NULL	T22E16.20	At3g55360	NULL	NULL	3-oxo-5-alpha-steroid 4-dehydrogenase (steroid 5-alpha-reductase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	T21B14.18	At3g11980	NULL	NULL	male sterility protein 2 (MS2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	F14L2.90	At3g44540	NULL	NULL	acyl CoA reductase - protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	F14L2.100	At3g44550	NULL	NULL	acyl CoA reductase -related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	F14L2.110	At3g44560	NULL	NULL	acyl CoA reductase -related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	T8M16.30	At3g56700	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	T16L1.280	At4g33790	NULL	NULL	male sterility 2-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	MWD9.22	At5g22420	NULL	NULL	acyl CoA reductase-related protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Alcohol-forming Fatty Acyl-Coenzyme A Reductase	NULL	NULL	MQJ16.4	At5g22500	NULL	NULL	male sterility 2-related protein (emb|CAA68191.1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	F12K21.28	At1g34490	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	F12K21.19	At1g34500	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	F12K21.17	At1g34520	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	F4F15.80	At3g51970	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MFG13.13	At5g51420	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.3	At5g55320	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.4	At5g55330	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.5	At5g55340	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.6	At5g55350	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.7	At5g55360	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.8	At5g55370	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Wax Synthase 	NULL	NULL	MTE17.9	At5g55380	NULL	NULL	long-chain-alcohol O-fatty-acyltransferase (wax synthase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER1 Protein involved in wax synthesis	NULL	NULL	T7I23.9	At1g02190	NULL	NULL	"CER1 protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER1 Protein involved in wax synthesis	NULL	NULL	T7I23.10	At1g02205	NULL	NULL	CER1 protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER1 Protein involved in wax synthesis	NULL	NULL	F13M22.20	At2g37700	NULL	NULL	"CER1 protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER1 Protein involved in wax synthesis	NULL	NULL	T8M17.50	At5g28280	NULL	NULL	sterol desaturase domain-containing protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER1 Protein involved in wax synthesis	NULL	NULL	MTI20.3	At5g57800 	NULL	NULL	"CER1 protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Putative Transcription Factor CER2 involved in wax biosynthesis	NULL	NULL	F14O13.22	At3g23840	NULL	NULL	transferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Putative Transcription Factor CER2 involved in wax biosynthesis	NULL	NULL	F18A5.230	At4g13840	NULL	NULL	transferase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Putative Transcription Factor CER2 involved in wax biosynthesis	NULL	NULL	F22K18.290	At4g24510	NULL	NULL	CER2	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	CER3 Protein involved in wax biosynthesis	NULL	NULL	T1E22.70	At5g02310	NULL	NULL	eceriferum3 (CER3)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ELO-like Elongase	NULL	NULL	F24P17.4	At3g06460	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ELO-like Elongase	NULL	NULL	F24P17.3	At3g06470	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ELO-like Elongase	NULL	NULL	AP22.81	At4g36830	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ELO-like Elongase	NULL	NULL	F9E10.15	At1g75000	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	K19E1.18	At5g53380	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	MQK4.7	At5g16350	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	T2L20.7	At5g12420	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	MQJ16.3	At5g22490	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	F28P5.3	At1g72110	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	MNJ8.9	At5g37300	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	F2K15.70	At3g49210	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	F2K15.50	At3g49190	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	K19E1.19	At5g53390	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	F2K15.60	At3g49200	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Bifunctional Wax Ester Synthase / DAGAT	NULL	NULL	T7F6.30	At2g38995	NULL	NULL	hypothetical protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastid Lipid-associated Protein	NULL	NULL	T32F12.13	At2g35490	NULL	NULL	"plastid-lipid associated protein (PAP), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastid Lipid-associated Protein	NULL	NULL	T24H24.16	At4g04020	NULL	NULL	"plastid-lipid associated protein PAP/fibrillin, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastid Lipid-associated Protein	NULL	NULL	T10I14.70	At4g22240	NULL	NULL	"plastid-lipid associated protein (PAP), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Long-Chain Acyl-CoA Synthetase	NULL	NULL	T5M16.18	At1g77590	NULL	NULL	long-chain-fatty-acid--CoA ligase (acyl-CoA synthetase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Long-Chain Acyl-CoA Synthetase	NULL	NULL	MYM9.14	At3g23790	NULL	NULL	"AMP-binding protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial Long-Chain Acyl-CoA Synthetase	NULL	NULL	FCAALL.81	At4g14070	NULL	NULL	"AMP-binding protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	F13F21.14	At1g49430	NULL	NULL	long-chain-fatty-acid--CoA ligase (acyl CoA synthetase)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	F15H21.7	At1g64400	NULL	NULL	"long-chain-fatty-acid--CoA ligase (acyl-CoA synthetase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	T1O3.24	At2g04350	NULL	NULL	long-chain-fatty-acid--CoA ligase (acyl-CoA synthetase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	T8I13.8	At2g47240	NULL	NULL	long-chain-fatty-acid--CoA ligase (acyl-CoA synthetase) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	T22B4.10	At4g11030	NULL	NULL	"long-chain-fatty-acid--CoA ligase (acyl CoA synthetase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Long-Chain Acyl-CoA Synthetase (other than plastidial or peroxisomal)	NULL	NULL	T32A16.20	At4g23850	NULL	NULL	long-chain-fatty-acid--CoA ligase (acyl-CoA synthetase)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Plastidial ABC Acyl Transporter	NULL	NULL	F20D21.17	At1g54350	NULL	NULL	ABC transporter family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	F18A8.11	At2g26740	NULL	NULL	epoxide hydrolase (ATsEH)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	F18A8.12	At2g26750	NULL	NULL	"epoxide hydrolase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	F18C1.13	At3g05600	NULL	NULL	"epoxide hydrolase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	F24M12.40	At3g51000	NULL	NULL	"epoxide hydrolase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	T14P8.15	At4g02340	NULL	NULL	"epoxide hydrolase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Epoxide Hydrolase	NULL	NULL	FCAALL.242	At4g15960	NULL	NULL	"epoxide hydrolase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acetyl-CoA Synthetase	NULL	NULL	F7A10.14 	At1g55320 	NULL	NULL	AMP-dependent synthetase and ligase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acetyl-CoA Synthetase	NULL	NULL	MYJ24.4	At5g23050	NULL	NULL	AMP-dependent synthetase and ligase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acetyl-CoA Synthetase	NULL	NULL	F5H8.15 	At5g36880 	NULL	NULL	"acetyl-CoA synthetase (acetate-CoA ligase), putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Holo-ACP Synthase	NULL	NULL	T20F6.9	At2g02770	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cytosolic Homomeric Acetyl-CoA Carboxylase	NULL	NULL	F15C21.1	At1g36160	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingosine Transfer Protein	NULL	NULL	T29F13.10	At2g34690	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sphingosine Transfer Protein	NULL	NULL	F23K16.2	At4g39670	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Protein N-Myristoyltransferase	NULL	NULL	F6E13.30	At2g44170	NULL	NULL	N-myristoyltransferase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Protein N-Myristoyltransferase	NULL	NULL	MHM17.15	At5g57020	NULL	NULL	N-myristoyl transferase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	T14P4.6	At1g02660	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F25P12.93	At1g56630	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F5G3.16	At2g05260	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	MHK10.17	At2g42450	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F21O3.11	At3g07400	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	MAG2.3	At3g14075	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	MLN21.14	At3g14360	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	T2J13.110	At3g49050	NULL	NULL	calmodulin-binding heat-shock protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F15G16.70	At3g61680	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F26K9.20	At3g62590	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F6N23.21	At4g00500	NULL	NULL	calmodulin-binding heat-shock protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	F25I24.160	At4g10950	NULL	NULL	GDSL-motif lipase/hydrolase protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	T6G15.100	At4g13550	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	FCAALL.271	At4g16070	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	Sag101	NULL	F2G14.50	At5g14930	NULL	NULL	leaf senescence-associated protein (SAG101)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	K12G2.7	At5g24180	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	K12G2.1	At5g24210	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	MOP9.3	At5g24220	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	K12B20.160	At5g37710	NULL	NULL	calmodulin-binding heat-shock protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	MBD2.13	At5g42930	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Acylhydrolase-like	NULL	NULL	K8A10.15	At5g67050	NULL	NULL	lipase (class 3) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 1	NULL	NULL	T15J14.9	At2g15050	NULL	NULL	"lipid transfer protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 2	NULL	NULL	F26H6.1	At2g15325	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 3	NULL	NULL	T30D6.12	At2g18370	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 4	NULL	NULL	T6A23.27	At2g38530	NULL	NULL	nonspecific lipid transfer protein 2 (LTP 2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 5	NULL	NULL	T6A23.26	At2g38540	NULL	NULL	nonspecific lipid transfer protein 1 (LTP 1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 6	NULL	NULL	F17O14.24	At3g08770	NULL	NULL	lipid transfer protein 6 (ltp6)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	F26O13.230	At3g51590	NULL	NULL	"lipid transfer protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 8	NULL	NULL	F26O13.240	At3g51600	NULL	NULL	nonspecific lipid transfer protein 5 (LTP 5)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 9	NULL	NULL	T15F16.16	At4g08530	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 10	NULL	NULL	F17M5.4	At4g33355	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 11	NULL	NULL	T20L15.140	At5g01870	NULL	NULL	"lipid transfer protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 12	NULL	NULL	MNC17.4	At5g59310	NULL	NULL	lipid transfer protein 4 (LTP 4)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 13	NULL	NULL	MNC17.10	At5g59320	NULL	NULL	lipid transfer protein 3 (LTP 3)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 2	NULL	NULL	F11I4.8	At1g48750	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 3	NULL	NULL	F4N21.4	At1g66850	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 4	NULL	NULL	F25P22.20	At1g73780	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 5	NULL	NULL	MIE15.9	At3g18280	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 6	NULL	NULL	F28O9.160	At3g57310	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	MXA21.18	At5g38160	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 8	NULL	NULL	MXA21.17	At5g38170	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 9	NULL	NULL	MXA21.16	At5g38180	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 3	NULL	NULL	F5D14.4	At1g32280	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 4	NULL	NULL	F21O3.16	At3g07450	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 5	NULL	NULL	F4F15.240	At3g52130	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 6	NULL	NULL	F6I18.210	At4g30880	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	T16L1.40	At4g33550	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 8	NULL	NULL	T28J14.170	At5g07230	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 9	NULL	NULL	MJE7.10	At5g48485	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 10	NULL	NULL	MJE7.13	At5g48490	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 11	NULL	NULL	F17P19.6	At5g52160	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 12	NULL	NULL	MTE17.12	At5g55410	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 13	NULL	NULL	MTE17.16	At5g55450	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 14	NULL	NULL	MTE17.17	At5g55460	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 15	NULL	NULL	MCD7.25	At5g56480	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 16	NULL	NULL	MTG10.3	At5g62080	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 4	NULL	NULL	F5K20.280	At3g53980	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 5	NULL	NULL	K18J17.13	At5g05960	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 5	NULL	NULL	T10O22.25	At1g18280	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 6	NULL	NULL	F13K9.6	At1g27950	NULL	NULL	lipid transfer protein - related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	F5J5.27	At1g36150	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 8	NULL	NULL	F7A10.16	At1g55260	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 9	NULL	NULL	F23N19.16	At1g62790	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 10	NULL	NULL	F20P5.4	At1g70240	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 11	NULL	NULL	F6D5.6	At1g73550	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 12	NULL	NULL	F6D5.5	At1g73560	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 13	NULL	NULL	F2P9.24	At1g73890	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 14	NULL	NULL	F13J11.18	At2g13820	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 15	NULL	NULL	T20P8.18	At2g27130	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 16	NULL	NULL	T8P21.22	At2g37870	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 17	NULL	NULL	F4I1.10	At2g44290	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 18	NULL	NULL	F4I1.11	At2g44300	NULL	NULL	lipid transfer protein - related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 19	NULL	NULL	F11L15.3	At2g48130	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 20	NULL	NULL	F11L15.4	At2g48140	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 21	NULL	NULL	F16J14.13	At3g22570	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 22	NULL	NULL	F16J14.14	At3g22580	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 23	NULL	NULL	F16J14.16	At3g22600	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 24	NULL	NULL	F16J14.17	At3g22620	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 25	NULL	NULL	T28A8.10	At3g43720	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 26	NULL	NULL	T3F12.2	At4g08670	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 27	NULL	NULL	T4C9.200	At4g12360	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 28	NULL	NULL	FCAALL.170	At4g14815	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 29	NULL	NULL	F7K2.210	At4g22630	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 30	NULL	NULL	F7K2.220	At4g22640	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 31	NULL	NULL	T5E8.170	At5g09370	NULL	NULL	lipid transfer protein family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 32	NULL	NULL	MAC12.14	At5g13900	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 33	NULL	NULL	MHJ24.6	At5g64080	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 6	NULL	NULL	F7K2.70	At4g22490	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	F7K2.100	At4g22520	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 7	NULL	NULL	F14P22.140	At3g58550	NULL	NULL	protease inhibitor/seed storage/lipid transfer protein (LTP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Lipid Transfer Protein type 8	NULL	NULL	F20O9.3	At4g28395	NULL	NULL	"lipid transfer protein, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	Ads1	NULL	T21E18.13	At1g06080	NULL	NULL	delta 9 desaturase (ADS1)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	T21E18.14	At1g06090	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	T21E18.15	At1g06100	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	T21E18.17	At1g06120	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	T2D23.5	At1g06350	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	T2D23.6	At1g06360	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	Ads2	NULL	T28P16.15	At2g31360	NULL	NULL	delta 9 desaturase (ADS2)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Desaturase-like	NULL	NULL	MSJ11.4	At3g15870	NULL	NULL	fatty acid desaturase family protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ATP Citrate Lyase subunit A	NULL	NULL	F14J9.9	At1g09430	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ATP Citrate Lyase subunit A	NULL	NULL	F20B24.11	At1g10670	NULL	NULL	ATP citrate-lyase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ATP Citrate Lyase subunit A	NULL	NULL	F8A5.32	At1g60810	NULL	NULL	ATP citrate-lyase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ATP Citrate Lyase subunit B	NULL	NULL	F5E6.2	At3g06650	NULL	NULL	ATP citrate lyase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	ATP Citrate Lyase subunit B	NULL	NULL	K7J8.14	At5g49460	NULL	NULL	ATP citrate lyase	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.220 	At5g07510 	NULL	NULL	glycine-rich protein GRP14	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.230 	At5g07520 	NULL	NULL	glycine-rich protein GRP18	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.240 	At5g07530 	NULL	NULL	glycine-rich protein GRP17	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.250 	At5g07540 	NULL	NULL	glycine-rich protein GRP16	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.260 	At5g07550 	NULL	NULL	glycine-rich protein GRP19	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	T2I1.270 	At5g07560 	NULL	NULL	glycine-rich protein GRP20	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	MBK20.3	At5g07600 	NULL	NULL	oleosin / glycine-rich protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Pollen-surface Oleosin	NULL	NULL	K11J9.14	At5g61610	NULL	NULL	oleosin	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Thioesterase	NULL	NULL	T1N6.9	At1g01710	NULL	NULL	acyl CoA thioesterase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Thioesterase	NULL	NULL	T11J7.11	At2g30720	NULL	NULL	thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Thioesterase	NULL	NULL	F6N23.3	At4g00520	NULL	NULL	acetyl CoA thioesterase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Thioesterase	NULL	NULL	K23F3.9	At5g48370	NULL	NULL	thioesterase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Malonyl-CoA Decarboxylase	NULL	NULL	T19B17.4	At4g04320	NULL	NULL	malonyl-CoA decarboxylase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F3F19.24	At1g13210	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F1L3.21	At1g17500	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F28B23.19	At1g26130	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F20D21.10	At1g54280	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F23H11.14	At1g59820	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F24J5.6	At1g68710	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	F28P22.11	At1g72700	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	MDC16.2	At3g13900	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	T5M7.10	At3g25610	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	K16N12.23	At3g27870	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	MUG13.27	At5g04930	NULL	NULL	phospholipid-transporting ATPase 1 (aminophospholipid flippase 1) (magnesium-ATPase)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Translocase	NULL	NULL	MLN1.17 	At5g44240 	NULL	NULL	haloacid dehalogenase-like hydrolase family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Binding Protein	NULL	NULL	F5M6.27	At1g31812	NULL	NULL	Acyl CoA binding protein -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Binding Protein	NULL	NULL	F22F7.13	At3g05420    	NULL	NULL	acyl CoA binding protein (ACBP) family	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Binding Protein	NULL	NULL	T22A6.60	At4g24230	NULL	NULL	expressed protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Binding Protein	NULL	NULL	T27E11.20	At4g27780	NULL	NULL	acyl-CoA binding protein -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Acyl-CoA Binding Protein	NULL	NULL	MYN8.8	At5g53470	NULL	NULL	acyl-CoA binding protein (ACBP)	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sec14-like Protein	NULL	NULL	F14J16.8	At1g55840	NULL	NULL	"sec14 cytosolic factor, putative (phosphoglyceride transfer protein, putative)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Sec14-like Protein	NULL	NULL	MCA23.5	At5g47730	NULL	NULL	"sec14 cytosolic factor, putative (phosphoglyceride transfer protein, putative)"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cyclopropane Fatty Acid Synthase	NULL	NULL	MEE5.1	At3g23470	NULL	NULL	cyclopropane-fatty-acyl-phospholipid synthase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cyclopropane Fatty Acid Synthase	NULL	NULL	MEE5.5	At3g23510	NULL	NULL	cyclopropane-fatty-acyl-phospholipid synthase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Cyclopropane Fatty Acid Synthase	NULL	NULL	MDB19.18	At3g23530	NULL	NULL	"cyclopropane synthase, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	F27H5.130	At3g60340	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	FCAALL.11	At4g17470	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	FCAALL.380	At4g17480	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	FCAALL.16	At4g17483	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	MQL5.19	At5g47330	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	MQL5.20	At5g47340	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	PPT1-like Thioesterase	NULL	NULL	MQL5.21	At5g47350	NULL	NULL	"palmitoyl protein thioesterase precursor, putative"	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Glycerophosphoryl Diester Phosphodiesterase	NULL	NULL	F1O17.12	At1g74210	NULL	NULL	glycerophosphodiester phosphodiesterase -related	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
Acyl Lipid Metabolism Family	Glycerophosphoryl Diester Phosphodiesterase	NULL	NULL	F13G24.230	At5g08030	NULL	NULL	glycerophosphodiester phosphodiesterase - like protein	NULL	NULL	612141;2760	NULL	501706969	12805597	http://www.plantbiology.msu.edu/lipids/genesurvey/index.htm	NULL
AGC Family	PDK-1 subfamily	PDK1.1	NULL	T32M21.110	At5g04510	NULL	 NM_120533	3-phosphoinositide-dependent protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	PDK-1 subfamily	PDK1.2	NULL	F13M14.18	At3g10540	NULL	 NM_111890	3-phosphoinositide-dependent protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	S6K subfamily	S6K1	NULL	F17O14.20	At3g08730	NULL	 NM_111707	Ribosomal-protein S6 kinase ATPK6	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	S6K subfamily	S6K2	NULL	F17O14.19	At3g08720	NULL	 NM_111706	Ribosomal-protein S6 kinase AtPK19	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	IRE subfamily	IRE	NULL	MMI9.15	At5g62310	NULL	 NM_125625	"protein kinase, IRE (incomplete root hair elongation)"	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	IRE subfamily	IRE-H1	NULL	MEB5.7	At3g17850	NULL	 NM_112666	"protein kinase, similar to IRE "	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	IRE subfamily	IRE3	NULL	T1N15.10	At1g48490	NULL	 NM_103745	"protein kinase, similar to IRE"	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	IRE subfamily	IRE4	NULL	T10O22.13	At1g45160	NULL	 NM_103590	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR1	NULL	FCAALL.182	At4g14350	NULL	 NM_117512	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR2	NULL	F21M11.15	At1g03920	NULL	 NM_100273	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR3	NULL	MLM24.2	At3g23310	NULL	 NM_113233	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR4	NULL	F27F23.20	At2g19400	NULL	 NM_127498	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR5	NULL	T13C7.6	At2g20470	NULL	 NM_127606	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR6	NULL	F4I10.10	At4g33080	NULL	 NM_119462	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR7	NULL	T5I8.9	At1g30640	NULL	 NM_102801	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	NDR subfamily	NDR8	NULL	MYH9.10	At5g09890	NULL	 NM_121026	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.1	NULL	MYN21.2	At5g55910	NULL	 NM_124973	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.2	NULL	T15N24.60	At4g26610	NULL	 NM_118795	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.3	NULL	T13E15.16	At2g44830	NULL	 NM_180095	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.4	NULL	MUD12.10	At5g40030	NULL	 NM_123366	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.5	NULL	MBK21.5	At3g12690	NULL	 NM_112105	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.6	NULL	F3O9.24	At1g16440	NULL	 NM_101510	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.7	NULL	YUP8H12R.15	At1g79250	NULL	 NM_106575	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.8	NULL	F17C15.60	At5g03640	NULL	 NM_120445	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.9	NULL	F2H17.4	At2g36350	NULL	 NM_129192	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.10	NULL	F18A8.7	At2g26700	NULL	 NM_128227	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.11	NULL	MLN21.22	At3g14370	NULL	 NM_112295	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AGC1.12	NULL	T18B22.10	At3g44610	NULL	 NM_114329	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AtPK3	NULL	F22G10.21	At1g53700	NULL	 NM_104248	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AtPK5	NULL	MCA23.7	At5g47750	NULL	 NM_124149	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	AtPK7	NULL	MMJ24.13	At3g27580	NULL	 NM_113674	protein kinase	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	"PINOID, PID"	NULL	T31E10.1	At2g34650	NULL	 NM_129019	protein kinase (PINOID/PID)	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC1 subfamily	KIPK	NULL	F8J2.60	At3g52890	NULL	 NM_180356	protein kinase (KIPK)	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 subfamily	AGC2.1	NULL	MJL12.22	At3g25250	NULL	 NM_113431	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 subfamily	AGC2.2	NULL	F25G13.90	At4g13000	NULL	 NM_117369	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 subfamily	AGC2.3	NULL	F11M15.3	At1g51170	NULL	 NM_103996	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 subfamily	AGC2.4	NULL	MOE17.13	At3g20830	NULL	 NM_112974	protein kinase 	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 related subfamily	PHOT1	NULL	T6D9.110	At3g45780	NULL	 NM_114447	protein kinase (nonphototropic hypocotyl 1)	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
AGC Family	AGC2 related subfamily	PHOT2	NULL	K21L19.6	At5g58140	NULL	 NM_125199	protein kinase (non phototropic hypocotyl 1-related)	NULL	"phylogenetic tree, presence of motifs in catalytic, N- and C-terminal to the catalytic domain, signature motifs in the activation domain (also called T loop) between kinase subdomains VII and VIII, hydrophobic PIF domain"	1213417;7034	NULL	501710530	NULL	http://personal.rhul.ac.uk/ujba/110/bogrelab.htm	Bogre Lab
Aldehyde dehydrogenase (ALDH) superfamily	Family 2: class-1/2 ALDHs	ALDH2C4	AtALDH1a	MOB24_3	At3g24503	20530143	AAM27004	aldehyde dehydrogenase (ALDH1a)	NULL	phylogenetic analysis;protein sequence conservation	210609;5166;4458	NULL	501682094	11999848	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 2: class-1/2 ALDHs	ALDH2B4	AtALDH2a	T17F15_130	At3g48000	20530141	AAM27003	aldehyde dehydrogenase (ALDH2)	NULL	phylogenetic analysis;protein sequence conservation	210609;5166;4458	NULL	501682094	11999848	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 2: class-1/2 ALDHs	ALDH2B3	AtALDH2b	F5O8_33	At1g23800	19850249	AAL99612	"aldehyde dehydrogenase, mitochondrial (ALDH3)"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166;4458	NULL	501682094	11999848	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 3: class-3 ALDHs	ALDH3I1	AtALDH3	F10M10_10	At4g34240	17065876	CAC84903	aldehyde dehydrogenase (ALDH3)	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	501681944;501710181	11849595|12904208	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 3: class-3 ALDHs	ALDH3H1	AtALDH4	T7O23_15	At1g44170	18175879	AAL59944	"aldehyde dehydrogenase, putative (ALDH)"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	501681944	11849595	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 3: class-3 ALDHs	ALDH3F1	AtALDH5	F23E13_140	At4g36250	42406415	CAE48163	aldehyde dehydrogenase family protein	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 5: succinic semialdehyde dehydrogenases (SS-ALDH))	ALDH5F1	SSADH1	T8K14_14	At1g79440	6684442	AAF23590	succinate-semialdehyde dehydrogenase (SSADH1)	NULL	phylogenetic analysis;protein sequence conservation	210609;5166;5051	NULL	1116;82;501706003	10517851|10955999|12740438	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 6: methylmalonate semialdehyde dehydrogenases (MMS-ALDH))	ALDH6B2	putative MMSALDH	F15N24_6	At2g14170	4587685	AAD25855	"methylmalonate-semialdehyde dehydrogenase, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 7: antiquitin-related/turgor-ALDHs	ALDH7B4	AtALDH6	F15I1_19	At1g54100	42406417	CAE48164	"aldehyde dehydrogenase, putative / antiquitin, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 10: betaine aldehyde dehydrogenases (BADH)	ALDH10A8	putative BADH	F9E10_23	At1g74920	20260344	AAM13070	"betaine-aldehyde dehydrogenase, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 10: betaine aldehyde dehydrogenases (BADH)	ALDH10A9	putative BADH	T24C20_50	At3g48170	13878141	AAK44148	"betaine-aldehyde dehydrogenase, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm; 	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 11: NADP-dependent non-phosphorylating glyceraldehyde-3-phosphate dehydrogenases (GAPDH)	ALDH11A3	putative GAPDH	f27d4	At2g24270	14335052	AAK59790	"NADP-dependent glyceraldehyde-3-phosphate dehydrogenase, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 12: Delta1-pyrroline-5-carboxylate dehydrogenases (P5CDH)	ALDH12A1	AtP5CDH	K19B1_14	At5g62530	15383744	AAK73756	delta-1-pyrroline-5-carboxylate dehydrogenase (P5CDH)	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	501680111	11532180	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Aldehyde dehydrogenase (ALDH) superfamily	Family 22: novel plant ALDH family	ALDH22A1	AtALDH7	T8E24_4	At3g66658	42406419	CAE48165	"betaine-aldehyde dehydrogenase, putative"	NULL	phylogenetic analysis;protein sequence conservation	210609;5166	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bartels.htm	The Arabidopsis Functional Genomics Network
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	MCL19_16	AT5G46110	18422630	NM_123979	phosphate/triose-phosphate translocator precursor (gb|AAC83815.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	MBG8_6	AT5G54800	18423669	NM_124861	glucose-6-phosphate/phosphate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	T19B17_1	AT4G04300	18412531	NM_116668	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	F26C17_50	AT5G28230	18421207	NM_122706	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	F4P13_10	AT3G01550	18395854	NM_111021	putative phosphate/phosphoenolpyruvate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	F19N2_40	AT5G33320	18421374	NM_122856	phosphate/phosphoenolpyruvate translocator precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	F8K4_1	AT1G61800	18407335	NM_104862	"glucose-6-phosphate/phosphate-translocator precursor, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Phosphate/triose-phosphate translocator family	NULL	NULL	K10A8_110	AT5G17630	18418371	NM_121769	glucose 6 phosphate/phosphate translocator-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX2	NULL	MDC11_10	AT3G13320	18399969	NM_112177	low affinity calcium antiporter CAX2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX1	NULL	F16M14.10	AT2G38170	18404661	NM_129373	high affinity Ca2+ antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX3	ATHCX1	ORF11	AT3G51860	18409437	NM_115045	Ca2+/H+-exchanging protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX4	NULL	F7A7_10	AT5G01490	18413631	NM_120227	Ca2+/H+ exchanger-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX6	NULL	F20N2_23	AT1G55720	18405504	NM_104448	"H+/Ca2+ antiporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Low affinity calcium antiporter CAX2 family	ATCAX5	NULL	F20N2_16	AT1G55730	18405509	NM_104449	"H+/Ca2+ antiporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Sodium proton exchanger family	ATNHX1	NULL	T21B4_60	AT5G27150	18421084	NM_122597	NHE1 Na+/H+ exchanger	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Sodium proton exchanger family	ATNHX4	NULL	F24P17_16	AT3G06370	18397553	NM_111512	putative sodium proton exchanger	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Sodium proton exchanger family	ATNHX3	NULL	MTE17_18	AT5G55470	18423750	NM_124929	sodium proton exchanger	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Sodium proton exchanger family	ATNHX2	NULL	T9J14_2	AT3G05030	18397095	NM_111375	putative sodium proton exchanger	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	T16N11_24	AT1G15460	18394247	NM_101415	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	F24P17_6	AT3G06450	18397577	NM_111520	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	T3D7.3	AT2G47160	18407282	NM_130284	putative anion exchange protein 3	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	F9E10_34	AT1G74810	18410701	NM_106139	putative anion exchanger	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	T17J13_230	AT3G62270	18412318	NM_116092	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	F8B4_210	AT4G32510	18418026	NM_119403	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative anion exchange protein family	NULL	NULL	F18G18_170	AT5G25430	18420920	NM_122453	anion exchanger-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX1	NULL	F3O9_18	AT1G16380	18394353	NM_101504	putative Na/H antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX15	NULL	T10F5.16	AT2G13620	18397290	NM_126941	putative Na/H antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX23	NULL	F3F20_20	AT1G05580	18390545	NM_100438	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX20	NULL	F5K20_20	AT3G53720	18409902	NM_115232	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX13	NULL	T9D9.5	AT2G30240	18402297	NM_128577	putative Na/H antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX18	NULL	MBK23_12	AT5G41610	18422114	NM_123525	Na+/H+ antiporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX14	NULL	F10K1_23	AT1G06970	18390704	NM_100570	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX6	NULL	T6D22_24	AT1G08140	NULL	NULL	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX5	NULL	T6D22_25	AT1G08150	18390858	NM_100690	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX21	NULL	F20M17.5	AT2G31910	18402813	NM_128749	putative Na+/H+ antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX3	NULL	MRN17_13	AT5G22900	18420617	NM_122196	Na+/H+ antiporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX9	NULL	MRN17_14	AT5G22910	18420618	NM_122197	Na+/H+ antiporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX17	NULL	F9D16_170	AT4G23700	18416197	NM_118501	putative Na+/H+-exchanging protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX19	NULL	MKP6_18	AT3G17630	18401585	NM_112644	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX25	NULL	mqj2_50	AT5G58460	18424107	NM_125232	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX24	NULL	mjg14_30	AT5G37060	18421606	NM_123065	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX16	NULL	F22C12_6	AT1G64170	18407985	NM_105090	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX2	NULL	T8K14_18	AT1G79400	18412361	NM_106588	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX4	NULL	F28D10_90	AT3G44900	18407873	NM_114359	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX12	NULL	F28D10_100	AT3G44910	18407875	NM_114360	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX11	NULL	F28D10_110	AT3G44920	18407876	NM_114361	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX10	NULL	F28D10_120	AT3G44930	18407880	NM_114362	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX7	NULL	F24D13.4	AT2G28170	18401651	NM_128377	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX8	NULL	F24D13.3	AT2G28180	18401657	NM_128378	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX26	NULL	F7A7_200	AT5G01680	18413717	NM_120246	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATCHX27	NULL	F7A7_210	AT5G01690	18413719	NM_120247	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATSOS1	NULL	F14H20.5	AT2G01980	18395276	NM_126259	putative Na+/H+ antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/H+ antiporter family	ATNHX8	NULL	T5E21_5	AT1G14660	18394143	NM_101333	"Sodium/hydrogen exchanger, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative potassium proton antiporter family	ATKEA6	NULL	T22P22_190	AT5G11800	18416679	NM_121218	putative potassium transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative potassium proton antiporter family	ATKEA5	NULL	MIO24_16	AT5G51710	18423309	NM_124550	potassium/proton antiporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative potassium proton antiporter family	ATKEA4	NULL	F3P11.20	AT2G19600	18399088	NM_127518	putative potassium/proton antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Na+/H+ antiporter-Putative family	ATNHD2	NULL	F10F5_6	AT1G49810	18402791	NM_103868	putative potassium/proton antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Na+/H+ antiporter-Putative family	ATNHD1	NULL	MLD14_21	AT3G19490	18402253	NM_112836	unknown	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	2-oxoglutarate/malate translocator precursor-like	NULL	NULL	T24H18_30	AT5G12860	18416882	NM_121289	2-oxoglutarate/malate translocator precursor -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	2-oxoglutarate/malate translocator precursor-like	NULL	NULL	MSJ1_12	AT5G64280	18424809	NM_125824	2-oxoglutarate/malate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	2-oxoglutarate/malate translocator precursor-like	NULL	NULL	MSJ1_13	AT5G64290	18424810	NM_125825	2-oxoglutarate/malate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	"ADP, ATP carrier-like Protein family"	NULL	NULL	F20O9_60	AT4G28390	18417186	NM_118980	"ADP,ATP carrier-like protein"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	"ADP, ATP carrier-like Protein family"	NULL	NULL	F17O14_5	AT3G08580	18398168	NM_111692	adenylate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	"ADP, ATP carrier-like Protein family"	NULL	NULL	T6I14_20	AT5G13490	18417087	NM_121352	adenosine nucleotide translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	"ADP, ATP carrier-like Protein family"	NULL	NULL	T10B6_60	AT5G17400	18418285	NM_121746	ADP/ATP translocase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Potassium-dependent sodium-calcium exchanger like-family	ATCAX11	NULL	F7G19_17	AT1G08960	18390961	NM_100767	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Potassium-dependent sodium-calcium exchanger like-family	NULL	NULL	MVA3_200	AT5G17850	18418451	NM_121791	potassium-dependent sodium-calcium exchanger - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Potassium-dependent sodium-calcium exchanger like-family	NULL	NULL	MVA3_210	AT5G17860	18418455	NM_121792	potassium-dependent sodium-calcium exchanger - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative Na+/Ca2+ antiporter	ATMHX1	NULL	T30B22.10	AT2G47600	18407400	NM_130328	putative Na+/Ca2+ antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Antiporters	Putative carnitine/acylcarnitine translocase	NULL	NULL	F19K16_14	AT1G79900	18412554	NM_106639	putative carnitine/acylcarnitine translocase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	68069_m00151	AT1G31880	18398170	NM_102925	"major intrinsic protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F23A5_10	AT1G80760	18412895	NM_106724	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T18K17_14	AT1G73190	18410295	NM_105978	"tonoplast intrinsic protein, alpha (alpha-TIP)"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F4I18.6	AT2G45960	18406935	NM_130159	aquaporin (plasma membrane intrinsic protein 1B)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F28L1_3	AT3G06100	18397471	NM_111485	putative major intrinsic protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	MNJ7_4	AT5G47450	18422796	NM_124117	membrane channel protein-like; aquaporin (tonoplast intrinsic protein)-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F4P12_120	AT3G53420	18409834	NM_115202	plasma membrane intrinsic protein 2a	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T1J8.1	AT2G36830	18404245	NM_129238	putative aquaporin (tonoplast intrinsic protein gamma)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T2N18.7	AT2G37170	18404342	NM_129273	aquaporin (plasma membrane intrinsic protein 2B)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T2N18.6	AT2G37180	18404345	NM_129274	aquaporin (plasma membrane intrinsic protein 2C)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	M4E13_150	AT4G35100	18418574	NM_119676	plasma membrane intrinsic protein (SIMIP)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T27A16.3	AT2G29870	18402171	NM_128541	putative aquaporin (plasma membrane intrinsic protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F22L4_12	AT1G01620	18378861	NM_100044	"plasma membrane intrinsic protein 1c, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F2A19_30	AT3G61430	18412005	NM_116008	plasma membrane intrinsic protein 1a	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F28P10_200	AT3G54820	NULL	NULL	aquaporin/MIP - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F2H15_3	AT1G17810	18394536	NM_101644	"tonoplast intrinsic protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T21L8_190	AT3G47440	18408427	NM_114612	aquaporin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F12A24.3	AT2G16850	18398234	NM_127238	putative aquaporin (plasma membrane intrinsic protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T7F6.18	AT2G39010	18404922	NM_129458	putative aquaporin (water channel protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	MYA6_6	AT3G16240	18401067	NM_112495	delta tonoplast integral protein (delta-TIP)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F9I5_3	AT1G52180	18403884	NM_104098	"aquaporin, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F16G20_100	AT4G23400	18416134	NM_118469	water channel - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F17H15.16	AT2G25810	18400949	NM_128141	putative aquaporin (tonoplast intrinsic protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	A_IG005I10_2	AT4G00430	18411331	NM_116268	probable plasma membrane intrinsic protein 1c	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	K22F20_50	AT5G37810	18421689	NM_123140	Membrane integral protein (MIP) -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	K22F20_60	AT5G37820	18421690	NM_123141	Membrane integral protein (MIP) -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	dl4705w	AT4G17340	18414865	NM_117838	membrane channel like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F24G24_180	AT4G10380	18413329	NM_117106	major intrinsic protein (MIP) - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	T31E10.27	AT2G34390	18403539	NM_128991	nodulin-26-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F11O4_1	AT4G01470	18411645	NM_116377	putative water channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	MFE16_3	AT3G26520	NULL	NULL	gamma tonoplast intrinsic protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F13C5_80	AT4G18910	18415197	NM_118008	major intrinsic protein (MIP)- like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	mup24_70	AT5G60660	18424382	NM_125459	mipC protein - like (aquaporin)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Delta tonoplast integral protein family	NULL	NULL	F13C5_200	AT4G19030	18415223	NM_118021	nodulin-26 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Aquaporin Families	Putative major intrinsic protein family	NULL	NULL	F26H11.22	AT2G21020	18399552	NM_127671	putative nodulin protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AS2 family	AS2	ASYMMETRIC LEAVES2	F5I14.15	AT1G65620	18408325	NM_105235	unknown protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL1	AS2-like gene1	MUD21.13	AT5G66870	18425123	NM_126086	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL2	AS2-like gene2	F26B6.31	AT2G23660	18400340	NM_127929	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL3	AS2-like gene3	MGF10.6	AT3G27650	18405471	NM_113681	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL4	AS2-like gene4	MDC12.5	AT5G63090	18424663	NM_125703	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL5	AS2-like gene5	T27E13.13	AT2G30130	18402267	NM_128568	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL6	AS2-like gene6	T19E23.11	AT1G31320	18397892	NM_102870	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL7	AS2-like gene7	T17D12.	AT2G28500	18401761	NM_128410	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL8	AS2-like gene8	F24B9.1	AT1G07900	18390824	NM_100664	unknown protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL9	AS2-like gene9	F3O9.33	AT1G16530	18394373	NM_101518	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL10	AS2-like gene10	T9D9.15	AT2G30340	18402322	NM_128587	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL11	AS2-like gene11	T2P4.18	AT2G40470	18405400	NM_129608	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL12	AS2-like gene12	F9F8.10	AT3G11090	18399116	NM_111946	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL13	AS2-like gene13	MLJ15.5	AT3G26660	18405034	NM_113577	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL14	AS2-like gene14	MLJ15.1	AT3G26620	18405021	NM_113573	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL15	AS2-like gene15	MHK10.16	AT2G42440	NULL	NULL	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL16	AS2-like gene16	F9D24.100	AT3G58190	18410898	NM_115681	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL17	AS2-like gene17	F16D14.15	AT2G31310	18402626	NM_128688	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL18	AS2-like gene18	MHK10.15	AT2G42430	18405966	NM_129804	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL19	AS2-like gene19	F6N15.4	AT4G00220	18411252	NM_116239	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL20	AS2-like gene20	F4L23.41	AT2G45420	18406788	NM_130104	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL21	AS2-like gene21	F20H23.21	AT3G03760	18396658	NM_111247	unknown protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL22	AS2-like gene22	F6N15.25	AT4G00210	18411249	NM_116238	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL23	AS2-like gene23	F4L23.45	AT2G45410	18406785	NM_130103	unknown protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL24	AS2-like gene24	K16F4.4	AT5G06080	18415092	NM_120690	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL25	AS2-like gene25	T20E23.110	AT3G50510	18409113	NM_114911	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL26	AS2-like gene26	T12H17.90	AT4G22700	18415988	NM_118396	predicted protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL27	AS2-like gene27	MIK22.21	AT5G35900	18421509	NM_122981	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL28	AS2-like gene28	K24A2.3	AT3G27940	18405584	NM_113711	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL29	AS2-like gene29	T23J7.200	AT3G47870	18408527	NM_114657	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL30	AS2-like gene30	MCP4.8	AT3G13850	18400192	NM_112239	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL31	AS2-like gene31	F3N23.18	AT1G72980	18410232	NM_105956	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL32	AS2-like gene32	F9P14.14	AT1G06280	18390637	NM_100510	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL33	AS2-like gene33	T22A15.8	AT1G36000	18399979	NM_103296	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL34	AS2-like gene34	F3P11.11	AT2G19510	18399060	NM_127509	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL35	AS2-like gene35	F6F22.15	AT2G19820	18399162	NM_127540	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL36	AS2-like gene36	T26J14.8	AT1G68510	18409051	NM_105522	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL37	AS2-like gene37	F5A8.2	AT1G67100	18408691	NM_105380	hypothetical protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL38	AS2-like gene38	F16B3.18	AT3G02550	18396228	NM_111122	expressed protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL39	AS2-like gene39	K8K14.16	AT5G67420	18425187	NM_126142	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL40	AS2-like gene40	F3A4.20	AT3G49940	18408982	NM_114854	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AS2 family	ASL41	AS2-like gene41	F19F18.30	AT4G37540	18420067	NM_119918	putative protein	NULL	"Structural characterization of the AS2 protein family is defined by the presence of the AS2 domain containing the C-motif, the conserved glycine residue and the leucine-zipper-like motif"	5685	8784	NULL	12040093	http://www.bio.nagoya-u.ac.jp:8001/~yas/b2.html	MACHIDA Lab Page- Group of Plant Developmental Biology
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL1	NULL	FCAALL.122	AT4G17615	18414930	NM_117870	calcineurin B-like protein 1	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL2	NULL	MDA7.3	AT5G55990	18423812	NM_124981	calcineurin B-like protein 2 (gb AAC26009.1)	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL3	NULL	T15N24.20	AT4G26570	18416779	NM_118791	calcineurin B-like protein 3	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL4	NULL	MOP9.19	AT5G24270	18420769	NM_122333	calcium sensor homolog (gb|AAC26110.1)	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL5	NULL	F3D13.2	AT4G01420	18411633	NM_116372	putative calcium-regulated protein phosphatase	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL6	NULL	dl4205c	AT4G16350	18414639	NM_117730	hypothetical protein	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL7	NULL	M3E9.10	AT4G26560	18416775	NM_118790	putative calcineurin B-like protein	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL8	NULL	F1N19.5	AT1G64480	18408059	NM_105123	calcineurin B-like protein	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL9	NULL	K14A3.5	AT5G47100	18422754	NM_124081	"calcium sensor protein, calcineurin-like"	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCBLs (Calcineurin B-like Calcium Sensor Proteins)	AtCBL10	NULL	NULL	NULL	NULL	NULL	NULL	NULL	"all CBLs contain 3 EF-hand-motives mediating calcium binding;calcium binding has been experimentally (in vitro) confirmed for several CBLs;their overall sequence homology is always higher to calcineurin and frequenin from mammals than to any other calcium binding protein, like for example calmodulin"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH001	GL3	MYC6_2	At5g41315	17224394	AF246291	basic Helix-Loop-Helix Transcription Factor (BHLH001)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=1&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH002	EGL1 / EGL3 / Atmyc146	F24D7_16	At1g63650	2687354	AF027732	basic Helix-Loop-Helix Transcription Factor (BHLH002)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=2&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH003	NULL	FCAALL_202	At4g16430	18026953	AF251688	putative basic Helix-Loop-Helix Transcription Factor (BHLH003)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=3&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH004	AtMYC4	T6K21_60	At4g17880	18026955	AF251689	basic Helix-Loop-Helix Transcription Factor (BHLH004)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=4&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH005	ATR2 / AtMYC3	MZA15_18	At5g46760	18026957	AF251690	basic Helix-Loop-Helix Transcription Factor (BHLH005)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=5&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH006	RAP1 / AtMYC2	F6N18_4	At1g32640	1465367	X99548	basic Helix-Loop-Helix Transcription Factor (BHLH006)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=6&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH007	NULL	F10O3_13	At1g03040	21735476	AF251692	putative basic Helix-Loop-Helix Transcription Factor (BHLH007)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=7&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH008	PIF3	F14J9_19	At1g09530	18026963	AF251693	basic Helix-Loop-Helix Transcription Factor (BHLH008)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=8&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH009	PIF4	MFL8_13	At2g43010	18026965	AF251694	basic Helix-Loop-Helix Transcription Factor (BHLH009)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=9&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH010	NULL	F16D14_6	At2g31220	18026967	AF251695	putative basic Helix-Loop-Helix Transcription Factor (BHLH010)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=10&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH011	NULL	T19K4_190	At4g36060	19705591	AF251696	putative basic Helix-Loop-Helix Transcription Factor (BHLH011)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=11&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH012	AtMYC1	F6N23_22	At4g00480	18026971	AF251697	basic Helix-Loop-Helix Transcription Factor (BHLH012)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=12&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH013	Myc7E	F6F3_7	At1g01260	21539514	NULL	basic Helix-Loop-Helix Transcription Factor (BHLH013)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=13&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH014	NULL	A_TM018A10_7	At4g00870	26185714	AJ519812	putative basic Helix-Loop-Helix Transcription Factor (BHLH014)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=14&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH015	PIL5	T2G17_2	At2g20180	26051283	AF488560	basic Helix-Loop-Helix Transcription Factor (BHLH015)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=15&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH016	NULL	F6N15_11	At4g00050	20127011	AF488561	putative basic Helix-Loop-Helix Transcription Factor (BHLH016)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=16&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH017	NULL	F11C10_32	At2g46510	20453065	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH017)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=17&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH018	NULL	T30L20_1	At2g22750	20127013	AF488562	putative basic Helix-Loop-Helix Transcription Factor (BHLH018)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=18&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH019	NULL	T30L20_2	At2g22760	20127015	AF488563	putative basic Helix-Loop-Helix Transcription Factor (BHLH019)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=19&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH020	NULL	T30L20_3	At2g22770	20127017	AF488564	putative basic Helix-Loop-Helix Transcription Factor (BHLH020)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=20&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH021	AMS	F12A24_9	At2g16910	20127019	AF488565	basic Helix-Loop-Helix Transcription Factor (BHLH021)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=21&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH022	NULL	T6K22_60	At4g21330	18415675	NM_118253	putative basic Helix-Loop-Helix Transcription Factor (BHLH022)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=22&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH023	NULL	F16A16_100	At4g28790	20127020	AF488566	putative basic Helix-Loop-Helix Transcription Factor (BHLH023)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=23&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH024	SPATULA	C7A10_430	At4g36930	11245493	AF319540	basic Helix-Loop-Helix Transcription Factor (BHLH024)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=24&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH025	NULL	T28I19_130	At4g37850	20127021	AF488567	putative basic Helix-Loop-Helix Transcription Factor (BHLH025)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=25&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH026	HFR1	T6A9_13	At1g02340	20127023	AF488568	basic Helix-Loop-Helix Transcription Factor (BHLH026)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=26&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH027	NULL	F27B13_170	At4g29930	20127024	AF488569	putative basic Helix-Loop-Helix Transcription Factor (BHLH27)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=27&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH028	NULL	MSD23_1	At5g46830	18026975	AF252636	putative basic Helix-Loop-Helix Transcription Factor (BHLH28)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=28&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH029	NULL	F24D13_5	At2g28160	20127025	AF488570	putative basic Helix-Loop-Helix Transcription Factor (BHLH29)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=29&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH030	NULL	T6L1_1	At1g68810	18176097	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH30)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=30&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH031	ZCW32	T30E16_21	At1g59640	6520230	AB028232	putative basic Helix-Loop-Helix Transcription Factor (BHLH31)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=31&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH032	NULL	K13N2_1	At3g25710	20127027	AF488571	putative basic Helix-Loop-Helix Transcription Factor (BHLH32)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=32&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH033	NULL	F13K23_9	At1g12860	20127028	AF488572	putative basic Helix-Loop-Helix Transcription Factor (BHLH33)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=33&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH034	NULL	K14B15_10	At3g23210	20127029	AF488573	putative basic Helix-Loop-Helix Transcription Factor (BHLH34)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=34&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH035	NULL	MUL3_10	At5g57150	20127031	AF488574	putative basic Helix-Loop-Helix Transcription Factor (BHLH35)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=35&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH036	NULL	MIO24_9	At5g51780	20127032	AF488575	putative basic Helix-Loop-Helix Transcription Factor (BHLH36)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=36&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH037	NULL	F11C1_170	At3g50330	18409065	NM_114893	putative basic Helix-Loop-Helix Transcription Factor (BHLH37)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=37&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH038	ORG2	F24I3_50	At3g56970	20127033	AF488576	basic Helix-Loop-Helix Transcription Factor (BHLH038)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=38&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH039	ORG3	F24I3_60	At3g56980	20127035	AF488577	basic Helix-Loop-Helix Transcription Factor (BHLH039)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=39&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH040	NULL	F6N15_18	At4g00120	20127037	AF488578	putative basic Helix-Loop-Helix Transcription Factor (BHLH040)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=40&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH041	NULL	MHM17_7	At5g56960	18423919	NM_125078	putative basic Helix-Loop-Helix Transcription Factor (BHLH041)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=41&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH042	TT8	F17A8_170	At4g09820	11121433	AJ277509	basic Helix-Loop-Helix Transcription Factor (BHLH042)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=42&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH043	NULL	F17I14_60	At5g09750	18416080	NM_121012	putative basic Helix-Loop-Helix Transcription Factor (BHLH043)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=43&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH044	BEE1	F15H18_16	At1g18400	20127038	AF488579	basic Helix-Loop-Helix Transcription Factor (BHLH044)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=44&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH045	NULL	F28L1_6	At3g06120	20127039	AF488580	putative basic Helix-Loop-Helix Transcription Factor (BHLH045)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=45&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH046	NULL	T22D6_70	At5g08130	20127040	AF488581	putative basic Helix-Loop-Helix Transcription Factor (BHLH046)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=46&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH047	NULL	F1P2_190	At3g47640	20127041	AF488582	putative basic Helix-Loop-Helix Transcription Factor (BHLH047)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=47&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH048	NULL	MHK10_2	At2g42300	20127042	AF488583	putative basic Helix-Loop-Helix Transcription Factor (BHLH048)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=48&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH049	NULL	T6L1_10	At1g68920	20127043	AF488584	putative basic Helix-Loop-Helix Transcription Factor (BHLH049)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=49&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH050	BEE3	F25P22_25	At1g73830	20127045	AF488585	basic Helix-Loop-Helix Transcription Factor (BHLH050)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=50&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH051	NULL	T7M7_8	At2g40200	20127046	AF488586	putative basic Helix-Loop-Helix Transcription Factor (BHLH051)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=51&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH052	NULL	T5I8_12	At1g30670	20127048	AF488587	putative basic Helix-Loop-Helix Transcription Factor (BHLH052)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=52&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH053	NULL	F19I3_5	At2g34820	20127050	AF488588	putative basic Helix-Loop-Helix Transcription Factor (BHLH053)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=53&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH054	NULL	T22C5_16	At1g27740	21404146	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH054)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=54&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH055	NULL	T12C24_6	At1g12540	20127052	AF488589	putative basic Helix-Loop-Helix Transcription Factor (BHLH055)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=55&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH056	NULL	F16A16_90	At4g28800	18417272	NM_119024	putative basic Helix-Loop-Helix Transcription Factor (BHLH056)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=56&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH057	NULL	F11O4_13	At4g01460	20127053	AF488590	putative basic Helix-Loop-Helix Transcription Factor (BHLH057)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=57&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH058	BEE2	C7A10_820	At4g36540	20127055	AF488591	basic Helix-Loop-Helix Transcription Factor (BHLH058)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=58&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH059	NULL	T10P11_13	At4g02590	20127057	AF488592	putative basic Helix-Loop-Helix Transcription Factor (BHLH059)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=59&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH060	NULL	T10K17_10	At3g57800	20127059	AF488593	putative basic Helix-Loop-Helix Transcription Factor (BHLH060)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=60&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH061	NULL	F12B17_80	At5g10570	20127061	AF488594	putative basic Helix-Loop-Helix Transcription Factor (BHLH061)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=61&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH062	GBOF1	F21O3_5	At3g07340	20127063	AF488595	basic Helix-Loop-Helix Transcription Factor (BHLH062)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=62&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH063	NULL	T4L20_110	At4g34530	20127065	AF488596	putative basic Helix-Loop-Helix Transcription Factor (BHLH063)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=63&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH064	NULL	T30D6_19	At2g18300	20127067	AF488597	putative basic Helix-Loop-Helix Transcription Factor (BHLH064)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=64&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH065	PIL6	F17J16_110	At3g59060	20127069	AF488598	basic Helix-Loop-Helix Transcription Factor (BHLH065)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=65&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH066	NULL	F27D4_17	At2g24260	20127071	AF488599	putative basic Helix-Loop-Helix Transcription Factor (BHLH066)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=66&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH067	NULL	F21F14_120	At3g61950	20127073	AF488600	putative basic Helix-Loop-Helix Transcription Factor (BHLH067)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=67&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH068	NULL	F19B15_130	At4g29100	22711851	AF488634	putative basic Helix-Loop-Helix Transcription Factor (BHLH068)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=68&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH069	NULL	F6I18_110	At4g30980	20127074	AF488601	putative basic Helix-Loop-Helix Transcription Factor (BHLH069)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=69&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH070	NULL	F19D11_9	At2g46810	20127076	AF488602	putative basic Helix-Loop-Helix Transcription Factor (BHLH070)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=70&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH071	NULL	MZA15_10	At5g46690	20127077	AF488603	putative basic Helix-Loop-Helix Transcription Factor (BHLH071)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=71&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH072	NULL	mfb13_40	At5g61270	32527638	AF488604	putative basic Helix-Loop-Helix Transcription Factor (BHLH072)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=72&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH073	ALCATRAZ	K21H1_7	At5g67110	20127079	AF488605	basic Helix-Loop-Helix Transcription Factor (BHLH073)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=73&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH074	NULL	T27I1_15	At1g10120	20127080	AF488606	putative basic Helix-Loop-Helix Transcription Factor (BHLH074)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=74&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH075	NULL	F4F7_18	At1g25330	20127081	AF488607	putative basic Helix-Loop-Helix Transcription Factor (BHLH075)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=75&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH076	NULL	F28B23_8	At1g26260	20127082	AF488608	putative basic Helix-Loop-Helix Transcription Factor (BHLH076)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=76&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH077	NULL	MYM9_2	At3g23690	20127083	AF488609	putative basic Helix-Loop-Helix Transcription Factor (BHLH077)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=77&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH078	NULL	K15N18_2	At5g48560	20127084	AF488610	putative basic Helix-Loop-Helix Transcription Factor (BHLH078)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=78&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH079	NULL	MRG21_2	At5g62610	20127086	AF488611	putative basic Helix-Loop-Helix Transcription Factor (BHLH079)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=79&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH080	NULL	F12A4_2	At1g35460	20127087	AF488612	putative basic Helix-Loop-Helix Transcription Factor (BHLH080)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=80&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH081	NULL	T8A17_70	At4g09180	20127089	AF488613	putative basic Helix-Loop-Helix Transcription Factor (BHLH081)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=81&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH082	NULL	f2c19_10	At5g58010	20127090	AF488614	putative basic Helix-Loop-Helix Transcription Factor (BHLH082)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=82&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH083	NULL	F28G11_9	At1g66470	20127091	AF488615	putative basic Helix-Loop-Helix Transcription Factor (BHLH083)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=83&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH084	NULL	At2g14760	At2g14760	33111968	AJ577584	putative basic Helix-Loop-Helix Transcription Factor (BHLH084)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=84&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH085	NULL	F17I5_70	At4g33880	20127092	AF488616	putative basic Helix-Loop-Helix Transcription Factor (BHLH085)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=85&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH086	NULL	K22F20_40	At5g37800	18421688	NM_123139	putative basic Helix-Loop-Helix Transcription Factor (BHLH086)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=86&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH087	NULL	MHC9_1	At3g21330	20127094	AF488617	putative basic Helix-Loop-Helix Transcription Factor (BHLH087)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=87&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH088	NULL	K21H1_2	At5g67060	20127096	AF488618	putative basic Helix-Loop-Helix Transcription Factor (BHLH088)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=88&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH089	NULL	F9P14_2	At1g06170	20127098	AF488619	putative basic Helix-Loop-Helix Transcription Factor (BHLH089)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=89&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH090	NULL	F20B24_4	At1g10610	20127100	AF488620	putative basic Helix-Loop-Helix Transcription Factor (BHLH090)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=90&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH091	NULL	F16D14_5	At2g31210	26185708	AJ519809	putative basic Helix-Loop-Helix Transcription Factor (BHLH091)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=91&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH092	NULL	K9D7_15	At5g43650	17529207	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH092)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=92&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH093	NULL	K21L13_16	At5g65640	20127101	AF488621	putative basic Helix-Loop-Helix Transcription Factor (BHLH093)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=93&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH094	NULL	F12K8_16	At1g22490	20127102	AF488622	putative basic Helix-Loop-Helix Transcription Factor (BHLH094)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=94&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH095	NULL	F14J22_15	At1g49770	20127103	AF488623	putative basic Helix-Loop-Helix Transcription Factor (BHLH095)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=95&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH096	NULL	T9N14_4	At1g72210	20520636	AJ459771	putative basic Helix-Loop-Helix Transcription Factor (BHLH096)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=96&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH097	NULL	MUJ8_5	At3g24140	20127104	AF488624	putative basic Helix-Loop-Helix Transcription Factor (BHLH097)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=97&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH098	NULL	K19E1_1	At5g53210	18423484	NM_124700	putative basic Helix-Loop-Helix Transcription Factor (BHLH098)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=98&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH099	NULL	MNA5_5	At5g65320	20127105	AF488625	putative basic Helix-Loop-Helix Transcription Factor (BHLH099)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=99&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH100	NULL	F13H10_21	At2g41240	20127106	AF488626	putative basic Helix-Loop-Helix Transcription Factor (BHLH100)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=100&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH101	NULL	F21E1_70	At5g04150	26185710	AJ519810	putative basic Helix-Loop-Helix Transcription Factor (BHLH101)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=101&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH102	NULL	T6L1_19	At1g69010	20127107	AF488627	putative basic Helix-Loop-Helix Transcription Factor (BHLH102)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=102&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH103	NULL	T6K22_70	At4g21340	17529153	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH103)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=103&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH104	NULL	FCAALL_201	At4g14410	20127108	AF488628	putative basic Helix-Loop-Helix Transcription Factor (BHLH104)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=104&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH105	NULL	K5F14_2	At5g54680	20127110	AF488629	putative basic Helix-Loop-Helix Transcription Factor (BHLH105)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=105&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH106	NULL	T3K9_10	At2g41130	18491260	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH106)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=106&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH107	NULL	T8M16_100	At3g56770	18410568	NM_115536	putative basic Helix-Loop-Helix Transcription Factor (BHLH107)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=107&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH108	NULL	F4F7_16	At1g25310	18395638	NM_102341	putative basic Helix-Loop-Helix Transcription Factor (BHLH108)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=108&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH109	NULL	T22E19_13	At1g68240	33111970	AJ577585	putative basic Helix-Loop-Helix Transcription Factor (BHLH109)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=109&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH110	NULL	T22C5_11	At1g27660	18396439	NM_102531	putative basic Helix-Loop-Helix Transcription Factor (BHLH110)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=110&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH111	NULL	F17F8_3	At1g31050	2048387	AA395190	putative basic Helix-Loop-Helix Transcription Factor (BHLH111)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=111&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH112	NULL	T13M11_21	At1g61660	20127112	AF488630	putative basic Helix-Loop-Helix Transcription Factor (BHLH112)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=112&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH113	NULL	MLD14_22	At3g19500	20127113	AF488631	putative basic Helix-Loop-Helix Transcription Factor (BHLH113)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=113&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH114	NULL	C17L7_90	At4g05170	18412832	NM_116756	putative basic Helix-Loop-Helix Transcription Factor (BHLH114)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=114&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH115	NULL	F23H24_12	At1g51070	20127114	AF488632	putative basic Helix-Loop-Helix Transcription Factor (BHLH115)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=115&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH116	ICE1	MLJ15_15	At3g26744	19310474	NULL	basic Helix-Loop-Helix Transcription Factor (BHLH116)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=116&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH117	NULL	MZN24_29	At3g22100	18403258	NM_113106	putative basic Helix-Loop-Helix Transcription Factor (BHLH117)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=117&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH118	NULL	T30C3_70	At4g25400	30686869	NM_118672	putative basic Helix-Loop-Helix Transcription Factor (BHLH118)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=118&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH119	NULL	F16A16_80	At4g28811	26185712	AJ519811	putative basic Helix-Loop-Helix Transcription Factor (BHLH119)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=119&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH120	NULL	MIO24_8	At5g51790	18423320	NM_124558	putative basic Helix-Loop-Helix Transcription Factor (BHLH120)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=120&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH121	NULL	MPN9_10	At3g19860	20127116	AF488633	putative basic Helix-Loop-Helix Transcription Factor (BHLH121)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=121&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH122	NULL	F23H24_5	At1g51140	17104810	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH122)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=122&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH123	NULL	F3H11_2	At3g20640	19878077	AU238908	putative basic Helix-Loop-Helix Transcription Factor (BHLH123)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=123&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH124	PIL1	F14M4_20	At2g46970	22535491	AB090873	basic Helix-Loop-Helix Transcription Factor (BHLH124)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=124&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH125	NULL	F16P17 / 55268-56889	At1g62975	20805889	AF506369	putative basic Helix-Loop-Helix Transcription Factor (BHLH125)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=125&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH126	NULL	T30C3_80	At4g25410	572565	Z46563	putative basic Helix-Loop-Helix Transcription Factor (BHLH126)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=126&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH127	NULL	F16A16 / 69542-71111	At4g28815	33111972	AJ577586	putative basic Helix-Loop-Helix Transcription Factor (BHLH127)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=127&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH128	NULL	T20M3_6	At1g05805	15028100	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH128)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=128&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH129	NULL	F14B2_8	At2g43140	19876642	AU237473	putative basic Helix-Loop-Helix Transcription Factor (BHLH129)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=129&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH130	NULL	T24P15_19	At2g42280	30688975	NM_129790	putative basic Helix-Loop-Helix Transcription Factor (BHLH130)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=130&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH131	NULL	F20D10_190	At4g38071	33111974	AJ577587	putative basic Helix-Loop-Helix Transcription Factor (BHLH131)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=131&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH132	PIL2	T17J13_50	At3g62090	22535493	AB090874	basic Helix-Loop-Helix Transcription Factor (BHLH132)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=132&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH133	NULL	T2G17 / 62175-65799	At2g20095	33111976	AJ577588	putative basic Helix-Loop-Helix Transcription Factor (BHLH133)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=133&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH134	NULL	F8M21_50	At5g15160	26452782	AK118887	putative basic Helix-Loop-Helix Transcription Factor (BHLH134)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=134&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH135	NULL	F1M20_18	At1g74500	21407060	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH135)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=135&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH136	NULL	MYH19_20	At5g39860	21407020	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH136)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=136&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH137	NULL	K3K7.24	At5g50915	21406340	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH137)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=137&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH138	NULL	F16D14 / 18597-19092	At2g31215	30684869	NM_179830	putative basic Helix-Loop-Helix Transcription Factor (BHLH138)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=138&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH139	NULL	MMG4 / 80200-81173	At5g43175	22327540	NM_148080	putative basic Helix-Loop-Helix Transcription Factor (BHLH139)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=139&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH140	NULL	T10O8_20	At5g01310	18412837	NM_120209	putative basic Helix-Loop-Helix Transcription Factor (BHLH140)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=140&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH141	NULL	K15E6_40	At5g38860	18421801	NM_123247	putative basic Helix-Loop-Helix Transcription Factor (BHLH141)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=141&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH142	NULL	MSJ1_18	At5g64340	17064969	NULL	putative basic Helix-Loop-Helix Transcription Factor (BHLH142)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=142&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH143	NULL	T5E8_260	At5g09460	23197601	BT000009	putative basic Helix-Loop-Helix Transcription Factor (BHLH143)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=143&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH144	NULL	T1P2_2	At1g29950	13605562	AF361607	putative basic Helix-Loop-Helix Transcription Factor (BHLH144)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=144&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH145	NULL	MPF21_2	At5g50010	28950882	BT005301	putative basic Helix-Loop-Helix Transcription Factor (BHLH145)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=145&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH146	NULL	F9N11_30	At4g30180	19876413	AU237244	putative basic Helix-Loop-Helix Transcription Factor (BHLH146)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=146&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH147	NULL	K14A17_22	At3g17100	30684371	NM_180270	putative basic Helix-Loop-Helix Transcription Factor (BHLH147)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=147&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH148	NULL	F5E6_8	At3g06590	30679909	NM_111535	putative basic Helix-Loop-Helix Transcription Factor (BHLH148)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=148&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH149	NULL	T12M4_4	At1g09250	27764991	BT003052	putative basic Helix-Loop-Helix Transcription Factor (BHLH149)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=149&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH150	NULL	F10A16_9	At3g05800	18397367	NM_111454	putative basic Helix-Loop-Helix Transcription Factor (BHLH150)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=150&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH151	NULL	T8I13_11	At2g47270	18407312	NM_130295	putative basic Helix-Loop-Helix Transcription Factor (BHLH151)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=151&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH152	NULL	F12K8_28	At1g22380	18395113	NM_102088	putative basic Helix-Loop-Helix Transcription Factor (BHLH152)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=152&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH153	NULL	F3F20_21	At1g05710	32562995	AJ576040	putative basic Helix-Loop-Helix Transcription Factor (BHLH153)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=153&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH154	NULL	T9H9_27	At2g31730	32562997	AJ576041	putative basic Helix-Loop-Helix Transcription Factor (BHLH154)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=154&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH155	NULL	F16D14_12	At2g31280	32562999	AJ576042	putative basic Helix-Loop-Helix Transcription Factor (BHLH155)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=155&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH156	NULL	F12K2_19	At2g27230	32563001	AJ576043	putative basic Helix-Loop-Helix Transcription Factor (BHLH156)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=156&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH157	NULL	F1N19_19	At1g64625	32563003	AJ576044	putative basic Helix-Loop-Helix Transcription Factor (BHLH157)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=157&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH158	NULL	MFL8_8	At2g43060	32563005	AJ576045	putative basic Helix-Loop-Helix Transcription Factor (BHLH158)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=158&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH159	NULL	F17I23_250	At4g30410	32563007	AJ576046	putative basic Helix-Loop-Helix Transcription Factor (BHLH159)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=159&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH160	NULL	F23N20_19	At1g71200	18409785	NM_105789	putative basic Helix-Loop-Helix Transcription Factor (BHLH160)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=160&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH161	NULL	T23J7_40	At3g47710	22331644	NM_114639	putative basic Helix-Loop-Helix Transcription Factor (BHLH161)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=161&project=4	TF-CARDs
Transcription Factor	basic Helix-Loop-Helix (bHLH) Transcription Factor	BHLH162	NULL	T13K14_130	At4g20970	22328837	NM_118215	putative basic Helix-Loop-Helix Transcription Factor (BHLH162)	NULL	"A combination of different gene prediction programs and BLAST search tools using a bHLH consensus build on former described plant bHLH protein sequences, followed by sequence comparisons with already cloned AtbHLH transcription factors, annotation optimization and subsequent cDNA-cloning revealed the presence of at least 162 genes encoding for bHLH motifs containing proteins in the Arabidopsis thaliana genome. For more information please refer to the following article: Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. ""The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity."" Mol Biol Evol. 2003 May;20(5):735-47."	6272;1501415962	9527	501705886	12679534	http://tfcard.mpiz-koeln.mpg.de/tfcard/tfcard.php3?factornr=162&project=4	TF-CARDs
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP01	NULL	K7J8.13	AT5G49450	NULL	AF400618	bZIP family transcription factor; similar to bZIP transcription factor GI:1769891 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP02	GBF5	F8D23.6	AT2G18160	NULL	AF053939	bZIP family transcription factor; contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP03	NULL	F14F8.210	AT5G15830	NULL	AK117828	bZIP family transcription factor; similar to common plant regulatory factor 7 GI:9650828 from (Petroselinum crispum); contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP04	NULL	T4M14.10	AT1G59530	NULL	AF400619	bZIP protein; similar to G-box binding factor 1 GI:16286 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP05	NULL	T16K5.110	AT3G49760	NULL	AV799841	bZIP family transcription factor; similar to bZIP transcription factor GI:1769891 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP06	NULL	T20K9.6	AT2G22850	NULL	AU235294	bZIP family transcription factor; contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP07	NULL	T28I19.10	AT4G37730	NULL	AI992458	bZIP family transcription factor; contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP08	NULL	T6L1.5	AT1G68880	NULL	AF400621	bZIP family transcription factor; similar to common plant regulatory factor 6 GI:9650826 from (Petroselinum crispum); contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP09	BZO2H2	F6A4.10	AT5G24800	NULL	AF310223	"""bZIP protein, G/HBF-1-related; light-induced protein CPRF-2 - Petroselinum crispum, PIR:S16321"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP10	BZO2H1	T10P11.9	AT4G02640	NULL	AF310222	bZIP protein; similar to plant nucleic acid-binding proteins 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP11	ATB2	T4L20.170	AT4G34590	NULL	X99747	bZIP family transcription factor; similar to common plant regulatory factor 7 GI:9650828 from (Petroselinum crispum) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP12	DPBF4	T3K9.16	AT2G41070	NULL	AF334209	bZIP family transcription factor; contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP13	NULL	MRH10.19	AT5G44080	NULL	NULL	"""bZIP transcription factor, G-box binding factor 4-related; contains similarity to G-box binding factor"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP14	FD	T19K4.30	AT4G35900	NULL	AB105818	"""bZIP protein; Dc3 promoter-binding factor-2, Helianthus annuus, gb:AF001454"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP15	NULL	MBD2.11	AT5G42910	NULL	AJ419599	"""ABA-responsive element binding protein, putative"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP16	NULL	T32F12.9	AT2G35530	NULL	NM_179917	G-box binding bZIP transcription factor -related 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP17	NULL	T20B5.15	AT2G40950	NULL	NULL	bZIP family transcription factor; similar to AtbZIP transcription factor GI:17065880 from (Arabidopsis thaliana); contains Pfam profile: bZIP transcription factor PF00170 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP18	NULL	T2P4.3	AT2G40620	NULL	NULL	bZip DNA binding protein; identical to b-Zip DNA binding protein GI:2246376 from (Arabidopsis thaliana); contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP19	NULL	T12J5.11	AT4G35040	NULL	NULL	bZIP protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP20	AHBP-1b/TGA2	MOJ9.12	AT5G06950	NULL	D10042	"""bZIP transcription factor, HBP-1b homolog; sp|P43273"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP21	NULL	T27G7.24	AT1G08320	NULL	AJ314757	bZIP protein; similar to basic leucine zipper protein GI:2865394 from (Zea mays) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP22	TGA3	F2E2.14	AT1G22070	NULL	L10209	"""bZIP transcription factor, TGA3; identical to transcription factor GI:304113 from (Arabidopsis thaliana)"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP23	NULL	T24I21.18	AT2G16770	NULL	AK117479	bZIP protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP24	NULL	F4F15.70	AT3G51960	NULL	AK117629	bZIP family transcription factor; contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP25	NULL	T14E10.190	AT3G54620	NULL	AJ010860	bZIP transcription factor-related protein; annotation temporarily based on supporting cDNA gi|15982804|gb|AY057509.1| 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP26	OBF5/TGA5	MOJ9.13	AT5G06960	NULL	X69900	"""bZIP transcription factor, OBF5"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP27	NULL	T17A5.15	AT2G17770	NULL	BN000022	bZIP transcription factor -related 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP28	NULL	T7M13.12	AT3G10800	NULL	AJ419850	bZIP family transcription factor; contains Pfam profile: PF00170 bZIP transcription factor; contains similarity to TGACG-sequence specific DNA-binding protein TGA-1B (HSBF) GB:P14233 (Nicotiana tabacum) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP29	NULL	T9A14.180	AT4G38900	NULL	AF401297	"""bZIP protein; vsf-1 protein, Lycopersicon esculentum, PIR2:S52203"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP30	NULL	F7O24.5	AT2G21230	NULL	AF401298	bZIP family transcription factor; contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP31	NULL	T17A11.14	AT2G13150	NULL	AF401301	bZIP family transcription factor; contains a bZIP transcription factor basic domain signature (PDOC00036) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP32	NULL	T19K21.5	AT2G12980	NULL	NM_126904	plant transposase (Ptta/En/Spm) family; no ATG identified; very low similarity to PttA2 protein (Petunia x hybrida) GI:2827183; contains Pfam profile PF03004: Plant transposase (Ptta/En/Spm family) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP33	NULL	T19K21.13	AT2G12900	NULL	NM_126901	bZIP transcription factor family protein; similar to transcription factor(bZIP family) VSF-1 GI:3425907 from (Lycopersicon esculentum) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP34	NULL	MHK10.10	AT2G42380	NULL	AF401299	bZIP protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP35	ABF1	F14J22.7	AT1G49720	NULL	AF093544	abscisic acid responsive elements-binding factor; identical to abscisic acid responsive elements-binding factor GB:AAF27179 GI:6739274 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP36	ABF2/AREB1	T2P3	AT1G45249	NULL	AF093545	"ABA-responsive element binding protein 1, identical to ABA-responsive element binding protein 1 GI:9967417 from (Arabidopsis thaliana) "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP37	ABF3	F28A23.230	AT4G34000	NULL	AF093546	abscisic acid responsive elements-binding factor(ABF3); identical to abscisic acid responsive elements-binding factor (ABF3) GI:6739280 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP38	ABF4/AREB2	MVI11.7	AT3G19290	NULL	AF093547	abscisic acid responsive elements-binding factor; almost identical (one amino acid) to GB:AAF27182 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP39	ABI5	F2H17.12	AT2G36270	NULL	AF334206	"""ABA-responsive element binding protein, putative; similar to ABA-responsive element binding protein 1 (AREB1) GI:9967417 from (Arabidopsis thaliana);contains a bZIP transcription factor basic domain signature (PDOC00036)"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP40	GBF4	F21M11.10	AT1G03970	NULL	U01823	"G-box binding factor 4, GBF4, Identical to Arabidopsis thaliana G-box-binding factor 4, gb|U01823 "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP41	GBF1	AP22.21	AT4G36730	NULL	X63894	G-box-binding factor 1 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP42	NULL	MQP15.3	AT3G30530	NULL	NM_113954	bZIP family transcription factor; similar to bZIP protein(G/HBF-1) GI:1905785 from (Glycine max); contains PFAM profile: bZIP transcription factor PF00170 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP43	NULL	K15E6.1	AT5G38800	NULL	NM_123241	bZIP family transcription factor; similar to bZIP transcription factor GI:1769891 from (Arabidopsis thaliana); contains PFAM profile: bZIP transcription factor PF00170 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP44	NULL	F1B16.8	AT1G75390	NULL	BT004768	"""bZIP transcription factor ATB2, putative; similar to common plant regulatory factor 7 GI:9650828 from (Petroselinum crispum); contains Pfam profile: PF00170 bZIP transcription factor"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP45	TGA6	F28J15.6	AT3G12250	NULL	AJ320540 	"""bZIP transcription factor, TGA6"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP46	PAN	F24J5.12	AT1G68640	NULL	AF111711	"""bZIP transcription factor, PERIANTHIA; identical to transcription factor PERIANTHIA GB:AAD19660 GI:4378757 from (Arabidopsis thaliana)"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP47	TGA1	MQN23.15	AT5G65210	NULL	X68053	"""bZIP transcription factor, TGA1"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP48	NULL	F3L12.14	AT2G04038	NULL	NM_126441	bZIP protein; contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP49	NULL	T8M16.3	AT3G56660	NULL	AJ419851	bZIP family transcription factor; similar to AtbZIP transcription factor GI:17065880 from (Arabidopsis thaliana); contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP50	NULL	F28K19.13	AT1G77920	NULL	AJ315736	"""bZIP transcription factor, bZIP50; similar to transcription factor GI:304113 from (Arabidopsis thaliana)"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP51	VIP1	F2J6.6	AT1G43700	NULL	AF225983	VirE2-interacting protein VIP1; identical to GB:AAF37279 GI:7258340 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP52	NULL	F4H5.7	AT1G06850	NULL	AJ419852/53	bZIP protein; similar to b-Zip DNA binding protein GB:CAB06697 GI:2246376 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP53	NULL	T12C14.120	AT3G62420	NULL	AF400620	bZIP family transcription factor; similar to common plant regulatory factor 6 GI:9650826 from (Petroselinum crispum) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP54	GBF2	F2N1.12	AT4G01120	NULL	AF053228	"""G-box binding factor(bZIP protein), putative"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP55	GBF3	T3F17.8	AT2G46270	NULL	U51850	G-box binding bZIP transcription factor; identical to PIR:S20885 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP56	HY5	F2I11.150	AT5G11260	NULL	AB005295	bZIP protein HY5; identical to HY5 protein GI:2251085 from (Arabidopsis thaliana) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP57	OBF4/TGA4	T31P16.20	AT5G10030	NULL	X69899	"""bZIP transcription factor, OBF4; ocs-element binding factor 4"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP58	NULL	F21F23.3	AT1G13600	NULL	AF332430	bZIP family transcription factor; contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP59	PosF21	T28P16.14	AT2G31370	NULL	X61031	bZIP transcription factor (POSF21); identical to GB:Q04088 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP60	NULL	F13A11.5	AT1G42990	NULL	NULL	bZIP family transcription factor; contains Pfam profile: PF00170: bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP61	NULL	F9D24.30	AT3G58120	NULL	AF401300	"""transcription factor bZIP61 (BZIP61), pelota-related protein; annotation temporarily based on supporting cDNA gi|15100054|gb|AF401300.1|AF401300"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP62	NULL	F18O14.41	AT1G19490	NULL	NULL	bZIP protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP63	BZO2H3	T32B20.4	AT5G28770	NULL	AF310224	bZIP family transcription factor; similar to seed storage protein opaque-2(bZIP family)GI:168428 from Zea mays 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP64	HYH	MKP6.27	AT3G17609	NULL	AF453477	bZIP family transcription factor; similar to TGACG-motif binding factor GI:2934884 from (Glycine max); contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP65	NULL	MPH15.3	AT5G06839	NULL	AJ314787	bZIP transcription factor family protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP66	AREB3	T8M16.180	AT3G56850	NULL	AB017162	"""ABA-responsive element binding protein 3; Dc3 promoter-binding factor-3 - Helianthus annuus, EMBL:AF061870"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP67	DPBF2	F14L2.10	AT3G44460	NULL	AJ419600	"""bZIP protein; Dc3 promoter-binding factor-1, common sunflower, PIR:T12621"" "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP68	NULL	F3C3.7	AT1G32150	NULL	BT004147	G-Box binding protein -related; similar to G-Box binding protein 2 GB:AAD42938 GI:5381313 from (Catharanthus roseus) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP69	NULL	T21E18.12	AT1G06070	NULL	AJ419854 	bZIP protein; similar to transcriptional activator RF2a GB:AF005492 GI:2253277 from (Oryza sativa) 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP70	NULL	MAE1.7	AT5G60830	NULL	NM_125476	"bZIP protein, G-box binding factor 2B, Glycine max, PIR:T07151 "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP71	NULL	T28I24.7	AT2G24340	NULL	NM_127996	hypothetical protein 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP72	NULL	T28J14.100	AT5G07160	NULL	NM_120798	bZIP family transcription factor; contains Pfam profile: PF00170 bZIP transcription factor 	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP73	NULL	T17A11	AT2G13115	NULL	NM_147309	"bZIP protein -related, temporary automated functional assignment "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP74	NULL	F7O24	AT2G21235	NULL	NM_179679	"bZIP protein -related, temporary automated functional assignment "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	basic region leucine zipper (bZIP) Transcription Factor	BZIP75	NULL	T22D6	AT5G08141	NULL	NM_180460	"bZIP family transcription factor, contains Pfam profile: PF00170 bZIP transcription factor "	NULL	"Sequences encoding functionally charcterised basic-region leucine-zipper (bZIP) transcription factors were used to define a common motive in the bZIP DNA binding domain. With this motive, several databases have been searched manually. The 75 genes that were identified were subdivided into 11 groups according to the similarity of the aminoacid sequence within the bZIP domain and by taking into account additional conserved, group-specific amino acid motives. For more information please refer to the following article: Jakoby et al. (2002) bZIP transcription factors in Arabidopsis. Trends in Plant Science 3: 106-111"	10799;6272	NULL	1547369	11906833	http://www.mpiz-koeln.mpg.de/~weisshaa/ATBZIPs.html	Max-Planck-Institut für Züchtungsforschung
NULL	Calcium Dependent Protein Kinase	CPK1	AK1	MUK11.19	AT5G04870	18414719	NM_120569	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK2	NULL	F13M14.5	AT3G10660	18398950	NM_111902	calmodulin-domain protein kinase CDPK isoform 2	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK3	CDPK6	F9D16.120	AT4G23650	18416188	NM_118496	calcium-dependent protein kinase (CDPK6)	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK4	NULL	T25P22.10	AT4G09570	18413240	NM_117025	calmodulin-domain protein kinase CDPK isoform 4 (CPK4)	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK5	NULL	F23E12130	AT4G35310	18418656	NM_119697	calmodulin-domain protein kinase CDPK isoform 5 (CPK5)	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK6	ATCDPK3	F5J6.13	AT2G17290	18398376	NM_127284	putative calmodulin-domain protein kinase CPK6	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK7	NULL	T2L20	AT5G12480	18416871	NM_121286	calcium-dependent protein kinase-like protein	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK8	CDPK19	F7K24.200	AT5G19450	18419918	NM_121950	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK9	NULL	MQC12.17	AT3G20410	18402607	NM_112932	calmodulin-domain protein kinase CDPK isoform 9	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK10	ATCDPK1	F6A14.1	AT1G18890	18394666	NM_101746	"calcium-dependent protein kinase, putative"	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK11	ATCDPK2	F15O4.8	AT1G35670	18399838	NM_103271	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK12	CDPK9	MQM1.15	AT5G23580	18420694	NM_122264	calcium-dependent protein kinase (pir||S71196)	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK13	NULL	ORF10	AT3G51850	18409435	NM_115044	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK14	NULL	T6D20.24	AT2G41860	18405824	NM_129750	putative calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK15	NULL	T8O5.150	AT4G21940	18415802	NM_118315	calcium-dependent protein kinase - like protein	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK16	NULL	T13L16.9	AT2G17890	18398551	NM_127343	putative Ca2+-dependent ser/thr protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK17	NULL	MXC9.14	AT5G12180	18416796	NM_121256	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK18	NULL	T19K4.200	AT4G36070	18419776	NM_119774	Calcium-dependent serine/threonine protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK19	NULL	F8K4.26	AT1G61950	18407389	NM_104875	"calcium-dependent protein kinase, putative"	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK20	NULL	T7F6.8	AT2G38910	18404894	NM_129449	putative calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK21	NULL	T4B21.13	AT4G04720	18412664	NM_116710	putative calcium dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK22	NULL	T4B21.12	AT4G04710	18412662	NM_116709	putative calcium dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK23	NULL	T4B21.15	AT4G04740	18412672	NM_116712	putative calcium dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK24	NULL	T9H9.2	AT2G31500	18402684	NM_128707	putative calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK25	NULL	F11F19.20	AT2G35890	18403983	NM_129148	putative calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK26	NULL	F20D10.350	AT4G38230	18420199	NM_119985	calcium-dependent protein kinase -like protein	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK27	NULL	T4B21.11	AT4G04700	18412650	NM_116708	putative calcium dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK28	NULL	K2A18.29	AT5G66210	18425046	NM_126019	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK29	NULL	T4O12.25	AT1G76040	18411005	NM_106253	"calcium-dependent protein kinase, putative"	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK30	CDPK1a	F25A4.29	AT1G74740	18410682	NM_106132	"calcium-dependent protein kinase, putative"	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK31	NULL	T19J18.7	AT4G04695	NULL	NULL	NULL	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK32	NULL	T8H10.130	AT3G57530	18410742	NM_115613	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK33	NULL	F17J6.22	AT1G50700	18403187	NM_103952	calcium-dependent protein kinase	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
NULL	Calcium Dependent Protein Kinase	CPK34	NULL	F7K24.110	AT5G19360	18419895	NM_121941	calcium-dependent protein kinase - like	NULL	"please refer to the following papers in TAIR- Publication:1346229, Publication:3521 and PubMed:12068094 for more information on the gene family criteria."	6184;5286;10986;218;1113137	8365	1346229;3521	12068094	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Web Page
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 1	NULL	NULL	T32G6.5	AT2G41530	NULL	NULL	putative esterase D	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F4I10_150	AT4G33220	18418171	NM_119476	pectinesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T18A20_6	AT1G53830	NULL	NULL	"pectin methylesterase (PMEU1), putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F4L23.27	AT2G45220	18406732	NM_130085	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T18A20.7	AT1G53840	18404673	NM_104261	"pectinesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	A_IG002P16.5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	dl4030c	AT4G15980	18414562	NM_117691	pectinesterase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F14I3.7	AT1G50330	NULL	NULL	"pseudogene, putative pectinoesterase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F14M4.14	AT2G47030	18407242	NM_130271	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F17I14_50;MTH16.23	AT5G09760	18416084	NM_121013	pectin methylesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F17J16_60	AT3G59010	18411077	NM_115763	pectinesterase precursor-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F18C1.11	AT3G05620	18397298	NM_111435	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F18C1.12	AT3G05610	18397291	NM_111434	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F22D16.20	AT1G02810	18379009	NM_100160	pectinesterase family	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F27F5.7	AT1G44980	18401440	NM_103578	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F2K15.80	AT3G49220	NULL	NULL	pectinesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F3E22.3	AT3G06830	18397731	NM_111563	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F4I10.160	AT4G33230	18418173	NM_119477	pectinesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F6N15.23	AT4G00190	18411245	NM_116236	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F7K15_120	AT3G43270	18407512	NM_114195	pectinesterase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K11J9.21	AT5G61570	NULL	NULL	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K14A17.13	AT3G16970	NULL	NULL	"S1 self-incompatibility protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K17N15.4	AT5G51490	18423285	NM_124528	pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K17N15.5	AT5G51500	18423286	NM_124529	pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K19E1.17	AT5G53370	18423505	NM_124716	pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	K21P3.5	AT5G49180	18422998	NM_124295	pectin methylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MDF20.3	AT5G55590	18423764	NM_124941	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MLN21.10	AT3G14320	18400353	NM_112290	putative zinc finger protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MLN21.9	AT3G14310	18400350	NM_112289	putative pectin methylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MNJ7.9	AT5G47500	18422803	NM_124123	pectin methylesterase-like	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MUB3.16	AT5G64640	18424847	NM_125860	pectin methylesterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MUG13.18	AT5G04960	18414747	NM_120578	pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MUJ8.3	AT3G24120	18404043	NM_113317	"transfactor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	MXE2.4	AT3G29080	18406046	NM_113831	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T08I13.12	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T14P8.1	AT4G02320	18411912	NM_116465	pectinesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T14P8.14	AT4G02330	18411913	NM_116466	not found	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T17F3.3	AT1G69940	18409411	NM_105663	putative pectin methylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T17J13.130	AT3G62170	18412276	NM_116082	PECTINESTERASE-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T20K24.17	AT2G19150	18398953	NM_127472	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T21L8.150	AT3G47400	18408417	NM_114608	pectinesterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T23J18.23	AT1G11580	18391294	NM_101031	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T23J18.24	AT1G11580	18391294	NM_101031	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T23J18.25	AT1G11590	18391295	NM_101032	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T23J18.3	AT1G11370	18391269	NM_101010	"pectin methylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T24M8.6	AT4G03930	18412411	NM_116631	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T26J12.4;F26F24.2	AT1G23200	18395213	NM_102168	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T2H3.6	AT4G02300	18411907	NM_116463	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T2I1_120	AT5G07410	18415485	NM_120823	pectin methyl-esterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T2I1_130	AT5G07420	18415489	NM_120824	pectin methyl-esterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T2I1_140	AT5G07430	18415493	NM_120825	pectin methyl-esterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T30B22.15	AT2G47550	18407387	NM_130323	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T4C21_140	AT3G60730	18411704	NM_115937	pectinesterase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T7M13.20	AT3G10720	18398972	NM_111908	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T7M13.21	AT3G10710	18398969	NM_111907	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T9J22.11	AT2G26440	18401129	NM_128201	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	T9J22.12	AT2G26450	18401131	NM_128202	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	YUP8H12.7	AT1G05310	18390506	NM_100410	putative pectin methylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 8	NULL	NULL	F14M4.13	AT2G47040	18407244	NM_130272	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F14F8_240	AT5G15860	18417812	NM_121591	Carboxylesterase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F14J22.11	AT1G49660	18402734	NM_103854	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F14J22.12	AT1G49640	18402728	NM_103852	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F16B3.4	AT3G02410	18396181	NM_111108	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F18O22_100	AT5G14310	18417343	NM_121435	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F1N13_220	AT5G16080	18417872	NM_121613	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F24J5.14	AT1G68620	18409076	NM_105534	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	F28B23.20;F14G11.9	AT1G26120	18395766	NM_102377	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	K17E12.14	AT3G27320	18405318	NM_113646	"esterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T12H1.8	AT3G05120	18397128	NM_111384	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T20O10_110	AT3G63010	18412577	NM_116166	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T29M8.6	AT1G19190	18394707	NM_101777	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T30G6.2	AT5G36210	18421540	NM_123012	acyl-peptide hydrolase-like	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T8P19.200	AT3G48690	18408683	NM_114728	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 10	NULL	NULL	T8P19.210	AT3G48700	18408687	NM_114729	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F4F7.1	AT1G25160	NULL	NULL	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F4F7.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F4F7.6	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F5A9.14	AT1G24880	18395565	NM_102316	F5A9.14	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F5A9.18;F4F7.43	AT1G24793	18395550	NM_102312	F5A9.18	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F5A9.4	AT1G25141	18395594	NM_102326	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 11	NULL	NULL	F5A9.8	AT1G25054	18395584	NM_102322	F5A9.8	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F14M4.24	AT2G46930	18407212	NM_130261	putative pectinesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	T5K18_190	AT4G19410	18415307	NM_118061	putative pectinacetylesterase protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	T5K18_200	AT4G19420	18415310	NM_118062	putative pectinacetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F10A16.21	AT3G05910	18397405	NM_111465	putative pectinacetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F14J9.21	AT1G09550	18391035	NM_100826	putative pectinacetylesterase precursor	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F21E10.11	AT5G26670	NULL	NULL	pectin acetylesterase precursor - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F2O10.13	AT3G05910	18397405	NM_111465	"pectinacetylesterase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F3L24.30	AT3G09410	18398502	NM_111775	putative pectinacetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	F3L24.31	AT3G09420	18398505	NM_111776	putative pectinacetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	K9E15.6	AT5G45280	18422533	NM_123896	pectin acetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	MRO11.9	AT5G23870	18420725	NM_122292	pectinacetylesterase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	T17J13.20	AT3G62060	18412238	NM_116071	pectinacetylesterase precursor-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Carbohydrate Esterase Gene Families	Carbohydrate Esterase Family 13	NULL	NULL	T8L23.6	AT1G57590	18405979	NM_104556	"pectinacetylesterase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
NULL	AtCIPKs	AtCIPK1	NULL	MKP6.20	AT3G17510	18401538	NM_112631	unknown protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK2	NULL	T28J14.10	AT5G07070	18415391	NM_120789	serine threonine protein kinase-like protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK3	NULL	T20P8.3	AT2G26980	18401290	NM_128256	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK4	NULL	dl3330c	AT4G14580	18414252	NM_117538	SNF1 like protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK5	NULL	T30N20.200	AT5G10930	18416413	NM_121131	serine/threonine protein kinase -like protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK6	NULL	F6I18.130	AT4G30960	18417705	NM_119244	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK7	NULL	MXC7.3	AT3G23000	18403611	NM_113200	SNF1 related protein kinase (ATSRPK1)	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK8	NULL	T22A6.230	AT4G24400	18416338	NM_118573	serine/threonine kinase-like protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK9	NULL	T25K16.13	AT1G01140	18378800	NM_099996	"serine/threonine kinase, putative"	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK10	NULL	MCK7.25	AT5G58380	18424098	NM_125224	serine/threonine protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK11	NULL	T9D9.17	AT2G30360	18402328	NM_128589	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK12	NULL	F28A21.110	AT4G18700	18415156	NM_117986	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK13	NULL	F13P17.2	AT2G34180	18403473	NM_128969	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK14	NULL	T20L15.90	AT5G01820	18413760	NM_120260	putative protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK15	NULL	T20L15.80	AT5G01810	18413758	NM_120259	serine/threonine protein kinase ATPK10	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK16	NULL	F13D4.161	AT2G25090	18400717	NM_128066	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK17	NULL	F11A17.18	AT1G48260	18402118	NM_103723	"serine threonine kinase, putative"	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK18	NULL	F28N24.9	AT1G29230	18397003	NM_102663	"protein kinase PK4, putative"	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK19	NULL	K15I22.1	AT5G45810	18422595	NM_123949	serine threonine protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK20	NULL	K15I22.2	AT5G45820	18422596	NM_123950	serine threonine protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK21	NULL	MUA2.22	AT5G57630	18424000	NM_125144	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK22	NULL	T6A23.31	AT2G38490	18404768	NM_129406	putative protein kinase	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK23	NULL	F12P21.6	AT1G30270	18397429	NM_102766	"serine/threonine kinase, putative"	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK24	NULL	K21B8.3	AT5G35410	18421454	NM_122932	serine/threonine protein kinase SOS2 (gb|AAF62923.1)	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
NULL	AtCIPKs	AtCIPK25	NULL	T11H3.120	AT5G25110	18420881	NM_122420	serine/threonine protein kinase-like protein	NULL	"all harbor the NAF domain. This 24 amino acid domain is specific for these kinases and defines this group (and mediates the interaction with the CBLs);all CIPKs have been experimentally tested for interaction with CBLs (in J. Kudla lab);the serine-threonine kinase activity has (in vitro) been verified for several representative CIPKs;all CIPKs share the same domain structure: N-terminal kinase domain, central NAF domain, C-terminal domain (with potentially auto-inhibitory function)"	6945	NULL	NULL	NULL	http://www.bio.uni-frankfurt.de/botanik/mcb/AFGN/kudla.html	The Arabidopsis Functional Genomics Network
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA01	NULL	F8B4_110	AT4G32410	18418001	NM_119393	cellulose synthase catalytic subunit (RSW1)	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA02	NULL	T22F8_250	AT4G39350	18420432	NM_120095	cellulose synthase catalytic subunit (Ath-A)	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA03	NULL	K2A11_4	AT5G05170	18414814	NM_120599	cellulose synthase catalytic subunit (gb|AAC39336.1)	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA04	NULL	MRH10_14	AT5G44030	18422399	NM_123770	cellulose synthase catalytic subunit-like protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA05	NULL	MYH9_8	AT5G09870	18416112	NM_121024	cellulose synthase catalytic subunit	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA06	NULL	MVP7_7	AT5G64740	18424860	NM_125870	cellulose synthase catalytic subunit	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA07	NULL	T10B6_80	AT5G17420	18418296	NM_121748	cellulose synthase catalytic subunit (IRX3)	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA08	NULL	F28A21_190	AT4G18780	18415169	NM_117994	cellulose synthase - like protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA09	NULL	F7D8.9	AT2G21770	18399787	NM_127746	putative cellulose synthase catalytic subunit	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase; AtCesA	CesA10	NULL	F13B15.20	AT2G25540	18400859	NM_128111	putative cellulose synthase catalytic subunit	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA01	NULL	FCA6	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA02	NULL	MDJ22	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA03	NULL	F5O8	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA07	NULL	T20F21	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA09	NULL	MED24	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA10	NULL	T23E23	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA11	NULL	T21H19	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA14	NULL	F27K19	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslA	AtCslA15	NULL	T9E8	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB01	NULL	T26B15.9	AT2G32530	18403001	NM_128812	putative cellulose synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB02	NULL	T26B15.10	AT2G32540	18403002	NM_128813	putative cellulose synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB03	NULL	T26B15.17	AT2G32610	18403025	NM_128820	putative cellulose synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB04	NULL	T26B15.18	AT2G32620	18403029	NM_128821	putative cellulose synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB05	NULL	FCA3	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslB	AtCslB06	NULL	FCA3	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslC	AtCslC04	NULL	MIG10	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslC	AtCslC05	NULL	F3L17	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslC	AtCslC06	NULL	F21O3	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslC	AtCslC08	NULL	F25P17	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslC	AtCslC12	NULL	F1K3	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD1	NULL	F25I18_16	AT2G33100	18403188	NM_128870	putative cellulose synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD2	NULL	F2K13_60	AT5G16910	18418126	NM_121697	cellulose synthase catalytic subunit -like protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD3	KOJAK	T17B22_26	AT3G03050	18396425	NM_111175	putative cellulose synthase catalytic subunit	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD4	NULL	F20D10_310	AT4G38190	18420190	NM_119980	putative protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD5	NULL	F22D16	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslD	AtCslD6	NULL	F3C3_4	AT1G32180	18398311	NM_102951	"cellulose synthase catalytic subunit, putative"	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslE	AtCslE1	NULL	F14J16_20	AT1G55850	18405571	NM_104462	"cellulose synthase catalytic subunit, putative"	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslG	AtCslG1	NULL	T32A16_160	AT4G23990	18416251	NM_118531	cellulose synthase catalytic subunit - like protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslG	AtCslG2	NULL	T32A16_170	AT4G24000	18416252	NM_118532	putative protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Cellulose Synthase-like; AtCslG	AtCslG3	NULL	T32A16_180	AT4G24010	18416255	NM_118533	putative protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl01	NULL	C17L7	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl02	NULL	F13J11	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl03	NULL	F20M17	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl04	NULL	MIE1_7	AT3G14570	18400442	NM_112317	hypothetical protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl05	NULL	T5L23	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl06	NULL	T25N20	NULL	NULL	NULL	NULL	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl07	NULL	F12K11_26	AT1G06490	18390656	NM_100528	"glucan synthase, putative"	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl08	NULL	T1J8.3	AT2G36850	NULL	NULL	putative glucan synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl09	NULL	F5H8_100	AT5G36870	18421583	NM_123045	putative glucan synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl10	NULL	T1B9_18	AT3G07160	18397859	NM_111596	putative glucan synthase	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl11	NULL	F17J16_150	AT3G59100	18411093	NM_115772	putative protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Plant Cell Wall Biosynthesis Families	Glucan Synthase-like; AtGsl	AtGsl12	NULL	T24H18_170	AT5G13000	18416930	NM_121303	callose synthase catalytic subunit -like protein	NULL	NULL	4778	NULL	NULL	NULL	http://cellwall.stanford.edu/	CELLWALL
Chloroplast and Mitochondria gene families	Chloroplast membrane protein ALBINO3 family	NULL	NULL	F8N16.9	AT2G28800	18401856	NM_128439	chloroplast membrane protein (ALBINO3)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chloroplast membrane protein ALBINO3 family	NULL	NULL	F21J9_160	AT1G24500	NULL	NULL	"putative chloroplast membrane protein, ALBINO3"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F7H2_15	AT1G15820	18394287	NM_101450	"chlorophyll binding protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	MGF10_9	AT3G27690	18405488	NM_113685	putative chlorophyll A-B binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F2A19_70	AT3G61470	18412016	NM_116012	Lhca2 protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F28P10_130	AT3G54890	NULL	NULL	chlorophyll a/b-binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	T16O11_12	AT3G08940	18398303	NM_111728	putative chlorophyll a/b-binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F14G6_17	AT1G76570	18411143	NM_106307	putative chlorophyll A-B binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	T25B24_12	AT1G61520	18407220	NM_104833	"PSI type III chlorophyll a/b-binding protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F1O13.20	AT2G05070	18395954	NM_126537	putative chlorophyll a/b binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F15L11.2	AT2G05100	18395965	NM_126540	putative chlorophyll a/b binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F27I1.2	AT2G40100	18405263	NM_129568	putative chlorophyll a/b binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F1N18_23	AT1G29930	18397292	NM_102733	"chlorophyll A-B-binding protein 2 precursor, 5' partial"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F1N18_80	AT1G29920	18397287	NM_102732	"photosystem II type I chlorophyll a /b binding protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F1N18_9	AT1G29910	18397285	NM_102731	"photosystem II type I chlorophyll a /b binding protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F24G24_140	AT4G10340	18413324	NM_117102	chlorophyll a/b-binding protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	T31E10.24	AT2G34420	18403545	NM_128994	photosystem II type I chlorophyll a/b binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	T31E10.23	AT2G34430	18403548	NM_128995	putative photosystem II type I chlorophyll a/b binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Chlorophyll a/b-binding protein family	NULL	NULL	F7A7_50	AT5G01530	18413645	NM_120231	chlorophyll a/b-binding protein CP29	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome c putative family	NULL	NULL	MHK7_4	AT5G40810	18422027	NM_123446	cytochrome c1 precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome c putative family	NULL	NULL	K17E12_6	AT3G27240	18405280	NM_113638	"cytochrome c, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Strong similarity to a mitochondrial carrier protein-Ribes nigrum family	NULL	NULL	T27E13.10	AT2G30160	18402281	NM_128571	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Strong similarity to a mitochondrial carrier protein-Ribes nigrum family	NULL	NULL	F10K1_31	AT1G07030	18390715	NM_100577	"mitochondrial carrier protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Strong similarity to a mitochondrial carrier protein-Ribes nigrum family	NULL	NULL	F10K1_18	AT1G07020	18390711	NM_100575	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Mitochondrial carrier protein family	NULL	NULL	T30B22.21	AT2G47490	18407371	NM_130317	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Mitochondrial carrier protein family	NULL	NULL	F2J7_15	AT1G25380	18395658	NM_102349	"mitochondrial carrier protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative NADH dehydrogenase family	NULL	NULL	F26K10_100	AT4G28220	18417150	NM_118962	putative NADH dehydrogenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative NADH dehydrogenase family	NULL	NULL	F18E5_110	AT4G21490	18415705	NM_118269	AT4G21490	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative NADH dehydrogenase family	NULL	NULL	F5H14.23	AT2G20800	18399479	NM_127645	putative NADH-ubiquinone oxireductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Inner mitochondrial membrane family	NULL	NULL	F1L3_5	AT1G17530	18394497	NM_101615	"inner mitochondrial membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Inner mitochondrial membrane family	NULL	NULL	T9J14_25	AT3G04800	18397016	NM_111352	putative inner mitochondrial membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Inner mitochondrial membrane family	NULL	NULL	F28P22_6	AT1G72750	18410178	NM_105934	inner mitochondrial membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome b-561 family	NULL	NULL	F28B23_22	AT1G26100	18395760	NM_102375	"cytochrome b-561, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome b-561 family	NULL	NULL	MBB18_18	AT5G38630	18421778	NM_123224	cytochrome b-561 (gb|AAD45585.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome b-561 family	NULL	NULL	M7J2_60	AT4G25570	18416575	NM_118689	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Cytochrome b-561 family	NULL	NULL	F10B6_24	AT1G14730	18394155	NM_101342	"cytochrome B561, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Mitochondrial phosphate transporter family	NULL	NULL	MUA22_4	AT5G14040	18417273	NM_121407	mitochondrial phosphate translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Mitochondrial phosphate transporter family	NULL	NULL	T21J18_120	AT3G48850	18408718	NM_114744	mitochondrial phosphate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Mitochondrial phosphate transporter family	NULL	NULL	F5J6.3	AT2G17270	18398368	NM_127282	BAB09980	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Ubiquinol-cytochrome C reductase complex ubiquinone-binding protein (QP-C)-like family	NULL	NULL	K18I23_18	AT5G05370	18414868	NM_120619	ubiquinol-cytochrome C reductase complex ubiquinone-binding protein (QP-C)-like protein (gb|AAF19563.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Ubiquinol-cytochrome C reductase complex ubiquinone-binding protein (QP-C)-like family	NULL	NULL	T7M13_6	AT3G10860	18399032	NM_111923	putative ubiquinol-cytochrome C reductase complex ubiquinone-binding protein (QP-C)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative mitochondrial carrier protein family	NULL	NULL	F14F8_20	AT5G15640	18417738	NM_121568	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative mitochondrial carrier protein family	NULL	NULL	T19G15_50	AT5G26200	18420999	NM_122521	mitochondrial carrier - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative mitochondrial carrier protein family	NULL	NULL	F3N23_2	AT1G72820	18410192	NM_105940	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Beta-carotene hydroxylase family	NULL	NULL	F6N7_5	AT5G52570	18423408	NM_124636	beta-carotene hydroxylase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Beta-carotene hydroxylase family	NULL	NULL	L73G19_80	AT4G25700	18416601	NM_118702	beta-carotene hydroxylase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative chloroplast protein import component	NULL	NULL	F4C21_25	AT4G03320	18412224	NM_116570	putative chloroplast protein import component	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative mitochondrial carrier protein	NULL	NULL	F11F19.29	AT2G35800	18403960	NM_129139	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	Putative cytochrome c biogenesis protein precursor	NULL	NULL	MDK4_11	AT5G54290	18423612	NM_124809	cytochrome c biogenesis protein precursor (gb|AAF35369.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Chloroplast and Mitochondria gene families	SecY homolog; targetted to the thylakoid membrane	NULL	NULL	MSF3.9	AT2G18710	18398823	NM_127427	putative preprotein translocase SECY protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Core Cell Cycle Genes	CDKA;1	NULL	T21J18.20	AT3G48750	NULL	NULL	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKB1;1	NULL	F24B22.140	AT3G54180	18410013	NM_115278	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKB1;2	NULL	T6A23.18	AT2G38620	18404816	NM_129419	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKB2;1	NULL	F14G6.14	AT1G76540	18411130	NM_106304	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKB2;2	NULL	F9H16.8	AT1G20930	18394928	NM_101946	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKC;1	NULL	F18D22.40	AT5G10270	18416225	NM_121065	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKC;2	NULL	MXK3.19	AT5G64960	18424895	NM_125895	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKD;1	NULL	F25P22.11	AT1G73690	18410426	NM_106028	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKD;2	NULL	F4N21.12	AT1G66750	18408588	NM_105345	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKD;3	NULL	T10F20.5	AT1G18040	18394566	NM_101666	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKE;1	NULL	MBK5.8	AT5G63610	18424727	NM_125756	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CDKF;1	NULL	F25O24.8	AT4G28980	18417304	NM_119042	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA1;1	NULL	T7O23.18	AT1G44110	18401223	NM_103537	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA1;2	NULL	F2P24.10	AT1G77390	18411524	NM_106388	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA2;1	NULL	F18G18.15	AT5G25380	18420911	NM_122447	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA2;2	NULL	F2I11.190	AT5G11300	18416518	NM_121168	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA2;3	NULL	T16N11.8	AT1G15570	18394259	NM_101426	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA2;4	NULL	T16N11.8	AT1G80370	18412828	NM_106686	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA3;1	NULL	MMG4.10	AT5G43080	18422291	NM_123674	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA3;2	NULL	F8G22.8	AT1G47210	18401621	NM_103615	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA3;3	NULL	F8G22.6	AT1G47220	18401628	NM_103616	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCA3;4	NULL	F8G22.5	AT1G47230	18401632	NM_103617	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB1;1	NULL	F6G17.140	AT4G37490	18420055	NM_119913	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB1;2	NULL	K16F4.15	AT5G06150	18415113	NM_120697	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB1;3	NULL	F24K9.20	AT3G11520	18399267	NM_111985	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB1;4	NULL	F18A8.13	AT2G26760	18401228	NM_128233	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB2;1	NULL	T19E12.4	AT2G17620	18398484	NM_127316	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB2;2	NULL	F8D20.130	AT4G35620	18419363	NM_119727	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB2;3	NULL	F5M15.6	AT1G20610	18394886	NM_101912	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB2;4	NULL	T23E18.24	AT1G76310	18411076	NM_106281	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCB3;1	NULL	F3O9.13	AT1G16330	18394348	NM_101499	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD1;1	NULL	F20P5.7	AT1G70210	18409472	NM_105689	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD2;1	NULL	F14M13.11	AT2G22490	18399989	NM_127815	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD3;1	NULL	F28A23.80	AT4G34160	18418390	NM_119579	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD3;2	NULL	K21H1.30	AT5G67260	18425170	NM_126126	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD3;3	NULL	F3A4.150	AT3G50070	18409010	NM_114867	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD4;1	NULL	MNA5.15	AT5G65420	18424948	NM_125940	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD4;2	NULL	F12B17.210	AT5G10440	18416275	NM_121082	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD5;1	NULL	F19F18.120	AT4G37630	18420088	NM_119926	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD6;1	NULL	F4C21.20	AT4G03270	18412206	NM_116565	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCD7;1	NULL	T7H20.160	AT5G02110	18413837	NM_120289	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CYCH;1	NULL	F15A18.80	AT5G27620	18421137	NM_122644	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CKS1	NULL	T1E2.12	AT2G27960	18401579	NM_128355	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	CKS2	NULL	T1E2.11	AT2G27970	18401582	NM_128356	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	DEL1	NULL	T24C20.40	AT3G48160	18408593	NM_114685	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	DEL2	NULL	F2G14.80	AT5G14960	18417529	NM_121500	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	DEL3	NULL	T22N4.4	AT3G01330	18395783	NM_110999	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	DPa	NULL	T1E22.4	AT5G02470	18413932	NM_120325	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	DPb	NULL	F12E4.160	AT5G03410	18414220	NM_120420	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	E2Fa	NULL	F11F19.8	AT2G36010	18404017	NM_129160	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	E2Fb	NULL	T6G21.10	AT5G22220	18420429	NM_122128	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	E2Fc	NULL	T2E6.2	AT1G47870	18401948	NM_103684	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP1	NULL	F26B6.8	AT2G23430	18400276	NM_127907	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP2	NULL	T3A5.10	AT3G50630	18409152	NM_114923	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP3	NULL	K24G6.15	AT5G48820	18422958	NM_124259	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP4	NULL	F24L7.15	AT2G32710	18403053	NM_128830	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP5	NULL	K7P8.10	AT3G24810	18404341	NM_113393	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP6	NULL	MVI11.5	AT3G19150	18402140	NM_112802	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	KRP7	NULL	F14J22.14	AT1G49620	18402721	NM_103850	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	Rb	NULL	F28J15.11	AT3G12280	18399554	NM_112064	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
NULL	Core Cell Cycle Genes	WEE1	NULL	F22D16.3	AT1G02970	18379037	NM_100178	NULL	NULL	homology based annotation using experimental references to build a full catalog with 61 core cell cycle genes of Arabidopsis	912276	NULL	1547443	NULL	NULL	NULL
Cytochrome P450	CYP51A	CYP51A1	NULL	F5J6.9	AT2G17330	18398386	NM_127288	putative obtusifoliol 14-alpha demethylase similar to family of CYP51 gene products	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP51A	CYP51A2	NULL	F25C20_17	AT1G11680	18391303	NM_101040	putative obtusifoliol 14-alpha demethylase	obtusifoliol 14alpha-demethylase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A12	NULL	T11J7.14	AT2G30750	18402447	NM_128628	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A13	NULL	T11J7.16	AT2G30770	18402453	NM_128630	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A14	NULL	F6A4_170	AT5G24960	18420864	NM_122405	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A15	NULL	F6A4_160	AT5G24950	18420863	NM_122404	cytochrome P-450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A16	NULL	K16E1_6	AT5G42590	18422227	NM_123623	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A17P	NULL	MFC16	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A18	NULL	F25C20_24	AT1G11610	18391297	NM_101034	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A19	NULL	T9E8_30	AT4G13290	18413979	NM_117402	cytochrome p450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A20	NULL	T9E8_50	AT4G13310	18413982	NM_117404	cytochrome p450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A21	NULL	T29H11.160	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A22	NULL	T29H11.170	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A23	NULL	T29H11.180	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A24	NULL	T29H11.190	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A25	NULL	T29H11.200	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A26	NULL	T29H11.210	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A27	NULL	F1C12_160a	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71A	CYP71A28	NULL	F1C12_160b	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B2	NULL	F3F19_10	AT1G13080	18391471	NM_101178	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B3	NULL	MTC11_12	AT3G26220	18404855	NM_113529	cytochrome P450 monooxygenase (CYP71B3)	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B4	NULL	MTC11_19	AT3G26280	18404879	NM_113535	cytochrome P450 monooxygenase (CYP71B4)	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B5	NULL	T4D2_200	AT3G53280	18409807	NM_115188	CYTOCHROME P450 71B5	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B6	NULL	F27D4.9	AT2G24180	18400475	NM_127979	putative cytochrome P450 identical to GB:D78604	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B7	NULL	F3F19_13	AT1G13110	18391474	NM_101181	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B8	NULL	MXH1	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B9	NULL	T8K22.12	AT2G02580	18395391	NM_126314	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B10	NULL	MJB24_7	AT5G57260	18423957	NM_125108	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B11	NULL	T11H3_130	AT5G25120	18420883	NM_122421	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B12	NULL	T11H3_140	AT5G25130	18420884	NM_122422	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B13	NULL	T11H3_150	AT5G25140	18420885	NM_122423	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B14	NULL	F21J6_102	AT5G25180	18420890	NM_122427	cytochrome P450 71B1 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B15	NULL	MDJ14_12	AT3G26830	18405110	NM_113595	putative cytochrome P450	"synthesizes 2,4 dihydroxy 1-4 benzoxazin-3-one"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B16	NULL	MTC11_4	AT3G26150	18404828	NM_113522	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B17	NULL	MTC11_5	AT3G26160	18404832	NM_113523	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B18	NULL	MTC11_6	NULL	NULL	NULL	"pseudogene, cytochrome P450"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B19	NULL	MTC11_7	AT3G26170	18404834	NM_113524	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B20	NULL	MTC11_8	AT3G26180	NULL	NULL	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B21	NULL	MTC11_9	AT3G26190	18404844	NM_113526	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B22	NULL	MTC11_10	AT3G26200	18404849	NM_113527	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B23	NULL	MTC11_11	AT3G26210	NULL	NULL	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B24	NULL	MTC11_13	AT3G26230	18404858	NM_113530	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B25	NULL	MTC11_18	AT3G26270	18404871	NM_113534	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B26	NULL	MTC11_20	AT3G26290	18404886	NM_113536	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B27	NULL	F3F19_9	AT1G13070	18391470	NM_101177	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B28	NULL	F3F19_11	AT1G13090	18391472	NM_101179	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B29	NULL	F3F19_12	AT1G13100	18391473	NM_101180	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B30P	NULL	T4D2_210	AT3G53290	18409808	NM_115189	CYTOCHROME P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B31	NULL	T4D2_220	AT3G53300	18409812	NM_115190	CYTOCHROME P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B32	NULL	T4D2_220	AT3G53300	18409812	NM_115190	CYTOCHROME P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B33	NULL	F20C19	NULL	NULL	NULL	"pseudogene, cytochrome P450"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B34	NULL	F20C19_2	AT3G26300	NULL	NULL	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B35	NULL	F20C19_3	AT3G26310	18404896	NM_113538	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B36	NULL	F20C19_4	AT3G26320	18404900	NM_113539	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B37	NULL	F20C19_5	AT3G26330	NULL	NULL	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP71B	CYP71B38	NULL	T10D17_40	AT3G44250	18407740	NM_114293	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A7	NULL	MIE1_11	AT3G14610	18400459	NM_112322	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A8	NULL	MIE1_12	AT3G14620	18400462	NM_112323	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A9	NULL	MIE1_13	AT3G14630	18400466	NM_112324	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A10	NULL	MIE1_14	AT3G14640	18400471	NM_112325	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A11	NULL	MIE1_15	AT3G14650	18400474	NM_112326	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A12P	NULL	MIE1_14	AT3G14640	18400471	NM_112325	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A13	NULL	MIE1_16	AT3G14660	18400477	NM_112327	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A14	NULL	MIE1_18	AT3G14680	18400484	NM_112329	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72A	CYP72A15	NULL	MIE1_19	AT3G14690	18400486	NM_112330	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72B	CYP72B1	NULL	F18A8.8	AT2G26710	18401217	NM_128228	putative cytochrome P450	26-hydroxylase for brassinolide	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP72C	CYP72C1	NULL	F20D23_24	AT1G17060	18394433	NM_101566	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP73A	CYP73A5	NULL	T6B20.16	AT2G30490	18402367	NM_128601	cinnamate-4-hydroxylase molecular marker C4H (GB:U71080)	cinnamic acid 4-hydroxylase(t-cinnamic acid hydroxylase)	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP74A	CYP74A	NULL	MJB21_2	AT5G42650	18422234	NM_123629	allene oxide synthase (emb|CAA73184.1)	allene oxide synthase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP74B	CYP74B2	NULL	dl3766w	AT4G15440	18414450	NM_117633	hydroperoxide lyase (HPOL) like protein	hydroperoxide lyase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP75B	CYP75B1	NULL	F13G24_190	AT5G07990	18415674	NM_120881	flavonoid 3'-hydroxylase - like protein	"3'-hydroxylase for narigenin, dihydrokaempferol (flavonoid 3'-hydroxylase)"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C1	NULL	F17K2.9	AT2G45560	18406822	NM_130118	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C2	NULL	F17K2.10	AT2G45570	18406826	NM_130119	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C3	NULL	F17K2.11	AT2G45580	18406828	NM_130120	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C4	NULL	F17K2.8	AT2G45550	18406821	NM_130117	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C5	NULL	F14M2_11	AT1G33730	18398962	NM_103093	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C6	NULL	F14M2_12	AT1G33720	18398955	NM_103092	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C7	NULL	T27I15	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76C	CYP76C8P	NULL	T27I15	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP76G	CYP76G1	NULL	F8J2_140	AT3G52970	NULL	NULL	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77A	CYP77A4	NULL	T32M21	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77A	CYP77A5P	NULL	MIE15	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77A	CYP77A6	NULL	F13M14_15	AT3G10570	18398923	NM_111893	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77A	CYP77A7	NULL	F13M14_16	AT3G10560	18398920	NM_111892	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77A	CYP77A9	NULL	T32M21_230	AT5G04630	18414624	NM_120545	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP77B	CYP77B1	NULL	F25C20_25	AT1G11600	18391296	NM_101033	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A5	NULL	F21F23_11	AT1G13710	18394027	NM_101240	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A6	NULL	T3A4.4	AT2G46660	18407132	NM_130231	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A7	NULL	MYH9_18	AT5G09970	18416136	NM_121034	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A8	NULL	F6F3_7	AT1G01190	18378806	NM_100001	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A9	NULL	F21F14_50	AT3G61880	18412174	NM_116053	cytochrome p450 (CYP78A9)	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP78A	CYP78A10	NULL	F2P9_2	AT1G74110	18410538	NM_106071	putative cytochrome P-450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79A	CYP79A2	NULL	K18I23_6	AT5G05260	18414835	NM_120608	cytochrome P450	N-hydroxylase for phenylalanine	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79A	CYP79A3P	NULL	F14A1	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79A	CYP79A4P	NULL	F14A1_7	AT5G35920	18421511	NM_122983	cytochrome P450-like	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79B	CYP79B2	NULL	T5J17_120	AT4G39950	18420564	NM_120158	cytochrome P450 - like protein	"N-hydroxylase for tryptophan, tryptophan analogs"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79B	CYP79B3	NULL	F14M13.27	AT2G22330	18399941	NM_127798	putative cytochrome P450	N-hydroxylase for tryptophan	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79B	CYP79B4P	NULL	F14M13	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79C	CYP79C1	NULL	YUP8H12R_43	AT1G79370	18412349	NM_106585	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79C	CYP79C2	NULL	F19C14	AT1G58370	18406267	NM_104617	"xylan endohydrolase, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79C	CYP79C3P	NULL	F19C14	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79C	CYP79C4P	NULL	F19C14	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79C	CYP79C5P	NULL	F19C14	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79F	CYP79F1	NULL	F3O9_21	AT1G16410	18394357	NM_101507	putative cytochrome P450	"N-hydroxylase for short chain methionine derivatives (dihomo-methionine, trihomomethionine)"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP79F	CYP79F2	NULL	F3O9_20	AT1G16400	18394355	NM_101506	putative cytochrome P450	N-hydroxylase for long chain methionine derivatives	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D1	NULL	T30G6_3	AT5G36220	18421541	NM_123013	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D2	NULL	F6G17_10	AT4G37360	18420024	NM_119899	cytochrome p450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D3	NULL	C7A10_20	AT4G37340	18420022	NM_119898	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D4	NULL	C7A10_30	AT4G37330	18420020	NM_119897	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D5	NULL	C7A10_40	AT4G37320	18420019	NM_119896	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D6	NULL	T20D16.15	AT2G23220	18400200	NM_127886	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D7	NULL	T20D16.18	AT2G23190	18400191	NM_127883	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81D	CYP81D8	NULL	F6G17_20	AT4G37370	18420026	NM_119900	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81F	CYP81F1	NULL	F6G17_80	AT4G37430	18420036	NM_119906	cytochrome P450 monooxygenase (CYP91A2)	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81F	CYP81F2	NULL	MJB24_3	AT5G57220	18423953	NM_125104	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81F	CYP81F3	NULL	F6G17_50	AT4G37400	18420030	NM_119903	cytochrome P450 monooxygenase -like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81F	CYP81F4	NULL	F6G17_60	AT4G37410	18420033	NM_119904	cytochrome P450 monooxygenase - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81G	CYP81G1	NULL	K8K14_3	AT5G67310	18425175	NM_126131	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81H	CYP81H1	NULL	C7A10_50	AT4G37310	18420016	NM_119895	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81K	CYP81K1	NULL	F12B17_40	AT5G10610	18416324	NM_121099	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP81K	CYP81K2	NULL	F12B17_50	AT5G10600	18416322	NM_121098	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP82C	CYP82C2	NULL	F10N7_220	AT4G31970	18417918	NM_119348	Cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP82C	CYP82C3	NULL	F10N7_240	AT4G31950	18417914	NM_119346	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP82C	CYP82C4	NULL	F10N7_250	AT4G31940	18417913	NM_119345	Cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP82F	CYP82F1	NULL	F13D4.120	AT2G25160	18400742	NM_128073	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP82G	CYP82G1	NULL	MJL12_12	AT3G25180	18404449	NM_113423	"cytochrome P450 monooxygenase, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP83A	CYP83A1	NULL	F18A5_160	AT4G13770	18414074	NM_117451	cytochrome P450 monooxygenase (CYP83A1)	"N-hydroxylase for p-hydroxyphenylacetal-doxime, indole-3-acetyl-doxime"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP83B	CYP83B1	NULL	F3L17_70	AT4G31500	18417818	NM_119299	cytochrome P450 monooxygenase	N-hydroxylase for indole-3-acetyldoxime	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP84A	CYP84A1	NULL	F23E13_110	AT4G36220	18419805	NM_119790	ferulate-5-hydroxylase (FAH1)	"5-hydroxylase for coniferaldehyde, coniferyl alcohol and ferulic acid (ferulate 5-hydroxylase)"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP85A	CYP85A1	NULL	K15E6_150	AT5G38970	18421815	NM_123259	cytochrome P450 - like protein	"C6-oxidase for 6-deoxycastasterone, other steroids"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86A	CYP86A1	NULL	k19m22_60	AT5G58860	18424164	NM_125276	cytochrome P450 CYP86A1	omega-hydroxylase for saturated and unsaturated C12 to C18 fatty acids	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86A	CYP86A2	NULL	A_IG005I10_21	AT4G00360	18411309	NM_116260	probable cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86A	CYP86A4	NULL	F22L4_10	AT1G01600	18378859	NM_100042	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86A	CYP86A7	NULL	F24D7_10	AT1G63710	18407877	NM_105048	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86A	CYP86A8	NULL	F4I18.5	AT2G45970	18406937	NM_130160	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86B	CYP86B1	NULL	MKD15_5	AT5G23190	18420648	NM_122225	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86C	CYP86C1	NULL	F21J9_120	AT1G24540	18395510	NM_102298	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86C	CYP86C2	NULL	MTC11	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86C	CYP86C3	NULL	F3F19_16	AT1G13140	18391477	NM_101184	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP86C	CYP86C4	NULL	F3F19_17	AT1G13150	18391478	NM_101185	putative cytochrome P450 monooxygenase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP87A	CYP87A2	NULL	T12C24	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP88A	CYP88A3	NULL	YUP8H12_23	AT1G05160	18390486	NM_100394	putative cytochrome P450	multifunctional ent-kaurenoic acid oxidase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP88A	CYP88A4	NULL	T32F6.4	AT2G32440	18402972	NM_128803	putative cytochrome P450	multifunctional ent-kaurenoic acid oxidase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A2	NULL	F13O11_20	AT1G64900	18408155	NM_105164	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A3	NULL	mfb13_90	AT5G61320	18424454	NM_125525	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A4	NULL	T10J7.16	AT2G12180	NULL	NULL	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A5	NULL	F13O11_25	AT1G64950	18408169	NM_105169	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A6	NULL	F13O11_24	AT1G64940	18408166	NM_105168	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A7	NULL	F13O11_23	AT1G64930	18408162	NM_105167	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP89A	CYP89A9	NULL	T21P5_11	AT3G03470	18396560	NM_111218	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP90A	CYP90A1	NULL	MJJ3_9	AT5G05690	18414971	NM_120651	cytochrome P450 90A1 (sp|Q42569)	23alpha-hydroxylase for 6-oxo-cathasterone	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP90B	CYP90B1	DWF4	T3A5_40	AT3G50660	18409157	NM_114926	steroid 22-alpha-hydroxylase (DWF4)	22alpha-hydroxylase for 6-oxo-campestanol	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP90C	CYP90C1	NULL	C7A10_980	AT4G36380	18419824	NM_119801	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP90D	CYP90D1	NULL	MMM17_16	AT3G13730	18400141	NM_112223	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP93D	CYP93D1	NULL	MOJ9_6	AT5G06900	18415348	NM_120772	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94B	CYP94B1	NULL	MLE2_8	AT5G63450	18424709	NM_125740	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94B	CYP94B2	NULL	F1C9_32	AT3G01900	18395977	NM_111056	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94B	CYP94B3	NULL	T8P19_30	AT3G48520	18408647	NM_114710	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94C	CYP94C1	NULL	F15K20.21	AT2G27690	18401498	NM_128328	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94D	CYP94D1	NULL	F12K21_12	AT1G34540	18399322	NM_103176	"cytochrome p450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP94D	CYP94D2	NULL	T5P19_280	AT3G56630	18410543	NM_115522	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A1	NULL	T20D16.19	AT2G23180	18400190	NM_127882	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A2	NULL	F10M6_190	AT4G32170	18417955	NM_119369	cytochrome p450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A3	NULL	T8F5_12	AT1G65340	18408259	NM_105208	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A4	NULL	K24M7_5	AT5G52320	18423376	NM_124611	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A5	NULL	F7D8.23	AT2G21910	18399829	NM_127760	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A7	NULL	F16N3_29	AT1G47630	18401828	NM_103656	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A8	NULL	F16N3_8	AT1G47620	18401825	NM_103655	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A9	NULL	F23K16_110	AT4G39480	18420462	NM_120108	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A10	NULL	F23K16_120	AT4G39490	18420466	NM_120109	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A11	NULL	F23K16_130	AT4G39500	18420467	NM_120110	cytochrome P450 -like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A12	NULL	F23K16_140	AT4G39510	18420469	NM_120111	cytochrome P450 -like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A13	NULL	F9G14_210	AT5G02900	18414056	NM_120368	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP96A	CYP96A14P	NULL	F15E12	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP97B	CYP97B3	NULL	dl3600c	AT4G15110	18414381	NM_117600	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP97C	CYP97C1	NULL	T4D2_60	AT3G53130	NULL	NULL	Cytochrom P450 -like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP98A	CYP98A3	NULL	T20B5.9	AT2G40890	18405533	NM_129652	putative cytochrome P450	"3'-hydroxylase for p-coumaryl shikimic acid, p-coumaryl quinic acid"	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP98A	CYP98A8	NULL	F1M20_22	AT1G74540	18410641	NM_106114	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP98A	CYP98A9	NULL	F1M20_23	AT1G74550	18410643	NM_106115	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP701A	CYP701A3	NULL	T1N24_23	AT5G25900	18420965	NM_122491	cytochrome P450 GA3	multifunctional ent-kaurene oxidase	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A1	NULL	F1E22_6	AT1G65670	18408336	NM_105240	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A2	NULL	dl3695c	AT4G15300	18414423	NM_117618	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A3	NULL	dl3700w	AT4G15310	18414425	NM_117619	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A4P	NULL	FCA3	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A5	NULL	FCA3	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A6	NULL	FCA3	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A7P	NULL	NULL	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP702A	CYP702A8	NULL	T6J22_4	AT3G30290	18406422	NM_113928	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP703A	CYP703A2	NULL	F6F3_26	AT1G01280	18378820	NM_100010	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP704A	CYP704A1	NULL	T13E15.10	AT2G44890	18406654	NM_130053	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP704A	CYP704A2	NULL	F17K2.4	AT2G45510	18406811	NM_130113	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A1	NULL	dl3710c	AT4G15330	18414428	NM_117621	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A2	NULL	dl3720w	AT4G15350	18414432	NM_117623	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A3	NULL	dl3725w	AT4G15360	18414433	NM_117624	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A4	NULL	dl3735w	AT4G15380	18414437	NM_117626	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A5	NULL	MDN11_4	AT5G47990	18422858	NM_124173	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A6	NULL	F5G3.8	AT2G05180	18395982	NM_126545	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A8	NULL	T20P8.5	AT2G27000	18401296	NM_128258	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A9	NULL	T20P8.6	AT2G27010	18401299	NM_128259	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A12	NULL	K16E1_5	AT5G42580	18422226	NM_123622	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A13	NULL	T22C12.3	AT2G14100	18397436	NM_126982	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A14P	NULL	MAL21	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A15	NULL	MAL21_9	AT3G20080	18402479	NM_112899	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A16	NULL	MAL21_10	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A17P	NULL	MAL21	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A18	NULL	MAL21_13	AT3G20090	18402483	NM_112900	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A19	NULL	MAL21_14	AT3G20100	18402485	NM_112901	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A20	NULL	MAL21_15	AT3G20110	18402488	NM_112902	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A21	NULL	MAL21_16	AT3G20120	18402491	NM_112903	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A22	NULL	MAL21_17	AT3G20130	18402497	NM_112904	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A23	NULL	MAL21_18	AT3G20140	18402504	NM_112905	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A24	NULL	F3M18_13	AT1G28430	18396792	NM_102611	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A25	NULL	F17J6_8	AT1G50560	18403114	NM_103937	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A26P	NULL	F17J6	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A27	NULL	F17J6_6	AT1G50520	18403108	NM_103935	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A28	NULL	MFD22_6	AT3G20940	18402806	NM_112986	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A29P	NULL	MFD22	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A30	NULL	MFD22	NULL	NULL	NULL	NULL	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A31P	NULL	MFD22_8	AT3G20960	18402814	NM_112988	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A32	NULL	MFD22_7	AT3G20950	18402812	NM_112987	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP705A	CYP705A33	NULL	MFD22_8	AT3G20960	18402814	NM_112988	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A1	NULL	T12H17_80	AT4G22690	18415986	NM_118395	cytochrome P450 like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A2	NULL	T12H17_100	AT4G22710	18415990	NM_118397	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A3	NULL	K15C23_6	AT5G44620	18422462	NM_123829	"flavonoid 3',5'-hydroxylase-like; cytochrome P450"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A4	NULL	T4C9_140	AT4G12300	18413782	NM_117300	"flavonoid 3',5'-hydroxylase -like protein"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A5	NULL	T4C9_170	AT4G12330	18413787	NM_117303	"flavonoid 3',5'-hydroxylase like protein"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A6	NULL	T4C9_160	AT4G12320	18413785	NM_117302	cytochrome P450 homolog	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP706A	CYP706A7	NULL	T4C9_150	AT4G12310	18413783	NM_117301	"flavonoid 3,5-hydroxylase -like protein"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP707A	CYP707A1	NULL	T18B16_200	AT4G19230	18415270	NM_118043	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP707A	CYP707A2	NULL	T9I4.17	AT2G29090	18401944	NM_128466	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP707A	CYP707A3	NULL	K9E15_12	AT5G45340	18422540	NM_123902	cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP707A	CYP707A4	NULL	MVI11_19	AT3G19270	18402178	NM_112814	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP708A	CYP708A1	NULL	F14J16_23	AT1G55940	18405612	NM_104472	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP708A	CYP708A2	NULL	MDN11_7	AT5G48000	18422859	NM_124174	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP708A	CYP708A3	NULL	T30F21_28	AT1G78490	18411993	NM_106496	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP709A	CYP709A1	NULL	MXI10_18	AT5G38450	18421758	NM_123206	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP709A	CYP709A2	NULL	F5A8_3	AT1G67110	18408693	NM_105381	hypothetical protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP709B	CYP709B1	NULL	F14M4.21	AT2G46960	NULL	NULL	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP709B	CYP709B2	NULL	F14M4.22	AT2G46950	18407216	NM_130263	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP709B	CYP709B3	NULL	T29A15_200	AT4G27710	18417052	NM_118910	cytochrome P450 - like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP710A	CYP710A1	NULL	T31E10.16	AT2G34500	18403567	NM_129002	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP710A	CYP710A2	NULL	T31E10.17	AT2G34490	18403565	NM_129001	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP710A	CYP710A3	NULL	F8N16.14	AT2G28850	18401876	NM_128444	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP710A	CYP710A4	NULL	F8N16.15	AT2G28860	18401880	NM_128445	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP711A	CYP711A1	NULL	T1D16.19	AT2G26170	18401049	NM_128175	putative thromboxane-A synthase	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP712A	CYP712A1	NULL	T24P15.16	AT2G42250	18405920	NM_129787	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP712A	CYP712A2	NULL	M0J9_7	AT5G06905	NULL	NULL	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP714A	CYP714A1	NULL	F6A4_120	AT5G24910	18420858	NM_122400	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP714A	CYP714A2	NULL	F6A4_110	AT5G24900	18420857	NM_122399	cytochrome P450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP715A	CYP715A1	NULL	K24M7_14	AT5G52400	18423386	NM_124619	cytochrome P-450-like protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP716A	CYP716A1	NULL	MAB16_5	AT5G36110	18421530	NM_123002	cytochrome P450-like	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP716A	CYP716A2	NULL	MAB16_9	AT5G36140	18421533	NM_123005	putative protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP718	CYP718	NULL	F7D19.15	AT2G42850	18406077	NM_129846	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP721A	CYP721A1	NULL	F9E10.2	AT1G75130	18410777	NM_106169	putative cytochrome P450	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP722A	CYP722A1	NULL	F14P1_40	AT1G19630	18394765	NM_101819	"cytochrome P450, putative"	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome P450	CYP724A	CYP724A1	NULL	F13O22_190	AT5G14400	18417370	NM_121444	putative protein	NULL	"Arabidopsis genes were considered P450 if their amino acid sequences fell into one of the following sequence similarity categories (Family inclusion: >40%, Subfamily inclusion: >55%, Allelic variant inclusion: >95%) and contained the three key amino acid signature motifs (the PERF consensus, K-helix, heme-binding motif) located torwards the C-terminus"	958;912138;4512	NULL	NULL	NULL	http://www.biobase.dk/p450;http://drnelson.utmem.edu/Arablinks.html;http://arabidopsis-p450.biotec.uiuc.edu/	Arabidopsis P450 site at PlaCe;Dr. Nelson's Arabidopsis P450s site;Functional Genomics of Arabidopsis P450s
Cytochrome b5	Cytochromes b5	b5 #1	NULL	T3A4.3	AT2G46650	18407130	NM_130230	putative cytochrome b5	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	Cytochromes b5	b5 #2	NULL	MNC6.10	AT5G53560	18423527	NM_124736	cytochrome b5 (dbj|BAA74839.1)	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	Cytochromes b5	b5 #3	NULL	K24G6.14	AT5G48810	18422957	NM_124258	cytochrome b5 (dbj|BAA74840.1)	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	Cytochromes b5	b5 #4	NULL	F24L7.14	AT2G32720	18403059	NM_128831	putative cytochrome b5	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	Cytochromes b5	b5 #5	NULL	F8A5.18	AT1G60660	18406836	NM_104749	"cytochrome b5, putative"	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	Cytochromes b5	b5 #6	NULL	T1K7.28	AT1G26340	18395861	NM_102398	cytochrome b5	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytochrome b5	NADPH cytochrome b5 reductase	NULL	NULL	MVA3.120	AT5G17770	18418426	NM_121783	NADH-cytochrome b5 reductase	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
Cytoplasmic ribosomal protein gene family	Sa	RPSaA	NULL	T10D10.16	At1g72370	NULL	AAG52587	Sa in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	Sa	RPSaB	NULL	F7O18.26	At3g04770	NULL	AAF04903	Sa in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2A	NULL	F9K23.9	At1g58380	NULL	AAG50639	S2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2B	NULL	T4M14.3	At1g59359	NULL	NP_564740	S2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2C	NULL	T11A7.6	At2g41840	NULL	AAC02764	S2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2D	NULL	T8H10.90	At3g57490	NULL	CAB66016	S2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2E	NULL	R18I.8	At1g58684	NULL	NP_683443	"S2 in small subunit, newly identified "	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S2	RPS2F	NULL	T4M14.1	At1g58983	NULL	NP_564737	"S2 in small subunit, newly identified "	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S3	RPS3A	NULL	T9H9.13	At2g31610	NULL	AAD24852	S3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S3	RPS3B	NULL	F5K20.170	At3g53870	NULL	CAB88349	S3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S3	RPS3C	NULL	MOK9.14	At5g35530	NULL	BAB08712	S3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S3a	RPS3aA	NULL	T9J14.21	At3g04840	NULL	AAG51414	S3a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S3a	RPS3aB	NULL	T4L20.250	At4g34670	NULL	CAA18846	S3a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S4	RPS4A	NULL	F5J6.12	At2g17360	NULL	AAB86513	S4 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S4	RPS4B	NULL	T28J14.30	At5g07090	NULL	CAB87265	S4 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S4	RPS4C	NULL	MJG14.8	NULL	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S4	RPS4D	NULL	MQJ2.2	At5g58420	NULL	BAB10257	S4 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S5	RPS5A	NULL	F3G5.6	At2g37270	NULL	AAC98068	S5 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S5	RPS5B	NULL	F26K24.23	At3g11940	NULL	AAF23210	S5 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S6	RPS6A	NULL	F28M20.110	At4g31700	NULL	CAA19753	S6 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S6	RPS6B	NULL	F12B17.290	At5g10360	NULL	CAB89407	S6 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S7	RPS7A	NULL	F11I4.1	At1g48830	NULL	AAG60128	S7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S7	RPS7B	NULL	F16B3.19	At3g02560	NULL	AAF32463	S7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S7	RPS7C	NULL	T21H19.50	At5g16130	NULL	CAC01854	S7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S8	RPS8A	NULL	F5O24.180	At5g20290	NULL	NP_197529	S8 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S8	RPS8B	NULL	MNC17.15	At5g59240	NULL	BAB09769	S8 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S9	RPS9A	NULL	F16J13.230	At4g12160	NULL	CAB40957	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S9	RPS9B	NULL	F8M21.90	At5g15200	NULL	CAB89330	S9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S9	RPS9C	NULL	MYH19.1	At5g39850	NULL	BAB10209	S9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S10	RPS10A	NULL	F14M19.20	At4g25740	NULL	CAB39595	S10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S10	RPS10B	NULL	MBK23.4	At5g41520	NULL	BAB11458	S10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S10	RPS10C	NULL	F6N7.14	At5g52650	NULL	BAA98083	S10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S11	RPS11A	NULL	T2J13.230	At3g48930	NULL	CAB62017	S11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S11	RPS11B	NULL	F6I18.290	At4g30800	NULL	CAA18213	S11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S11	RPS11C	NULL	MRO11.22	At5g23740	NULL	BAB10047	S11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S12	RPS12A	NULL	T24D18.3	At1g15930	NULL	AAF18490	S12 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S12	RPS12B	NULL	F23A5.15	At1g80800	NULL	NP_178197	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S12	RPS12C	NULL	F22D22.19	At2g32060	NULL	AAD15398	S12 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S13	RPS13A	NULL	T4C21.180	At3g60770	NULL	CAB82681	S13 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S13	RPS13B	NULL	F6N15.7	At4g00100	NULL	AAC19305	S13 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S14	RPS14A	NULL	F9C22.9	At2g36160	NULL	AAD26971	S14 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S14	RPS14B	NULL	F24K9.19	At3g11510	NULL	AAG51428	S14 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S14	RPS14C	NULL	F22O6.40	At3g52580	NULL	CAB43407	S14 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15A	NULL	F19P19.29	At1g04270	NULL	AAB70449	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15B	NULL	T5E8.290	At5g09490	NULL	CAC05475	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15C	NULL	T5E8.300	At5g09500	NULL	CAC05476	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15D	NULL	T5E8.310	At5g09510	NULL	CAC05477	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15E	NULL	K9D7.14	At5g43640	NULL	BAB11627	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15	RPS15F	NULL	MCD12.3	At5g63070	NULL	BAB10549	S15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aA	NULL	F24B9.12	At1g07770	NULL	NP_172256	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aB	NULL	F6F22.25	At2g19720	NULL	NP_179562	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aC	NULL	F12L6.25	At2g39590	NULL	AAC27850	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aD	NULL	F12M12.10	At3g46040	NULL	CAB90931	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aE	NULL	F27B13	At4g29430	NULL	CAB79701	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S15a	RPS15aF	NULL	MMN10.16	At5g59850	NULL	NP_200793	S15a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S16	RPS16A	NULL	F7B19.13	At2g09990	NULL	AAD22696	S16 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S16	RPS16B	NULL	T6K12.15	At3g04230	NULL	AAF26790	S16 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S16	RPS16C	NULL	F20L16.100	At5g18380	NULL	NP_197339	S16 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S17	RPS17A	NULL	T1O3.20	At2g04390	NULL	AAD25839	S17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S17	RPS17B	NULL	F5G3.12	At2g05220	NULL	AAD29060	S17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S17	RPS17C	NULL	F13M14.10	At3g10610	NULL	AAG51372	S17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S17	RPS17D	NULL	MUK11.12	At5g04800	NULL	BAB08984	S17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S18	RPS18A 	NULL	T22J18.5	At1g22780	NULL	AAC25506	S18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S18	RPS18B 	NULL	F12G12.15	At1g34030	NULL	AAG12534	S18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S18	RPS18C	NULL	F17A8.150	At4g09800	NULL	CAB39647	S18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S19	RPS19A	NULL	 F1C9.13	At3g02080	NULL	AAF14828	S19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S19	RPS19B	NULL	T20K14.130	At5g15520	NULL	CAC01751	S19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S19	RPS19C	NULL	MAF19.17	At5g61170	NULL	BAB10379	S19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S20	RPS20A	NULL	F14D17.100	At3g45030	NULL	CAB89318	S20 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S20	RPS20B	NULL	T21L8.120	At3g47370	NULL	CAB51209	S20 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S20	RPS20C	NULL	MMI9.13	At5g62300	NULL	BAA97194	S20 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S21	RPS21A	NULL	K1G2.28	At3g27450	NULL	NP_189381	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S21	RPS21B	NULL	F5K20.190 	At3g53890	NULL	CAB88351	S21 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S21	RPS21C	NULL	T1G16.30	At5g27700	NULL	NP_198122	S21 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S23	RPS23A	NULL	F11F8.27	At3g09680	NULL	AAF23298	S23 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S23	RPS23B	NULL	F9G14.270	At5g02960	NULL	CAB86050	S23 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S24	RPS24A	NULL	T9J14.13	At3g04920	NULL	AAG51413	S24 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S24	RPS24B	NULL	F15F15	At5g28060	NULL	NP_198158	S24 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S25	RPS25A	NULL	F16F14.14	At2g16360	NULL	AAD22303	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S25	RPS25B	NULL	F2G1.15	At2g21580	NULL	AAD23647	S25 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S25	RPS25C	NULL	T4A2.5	At3g30740	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S25	RPS25D	NULL	T4L20.250	At4g34555	NULL	CAA18846	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S25	RPS25E	NULL	T22F8.100	At4g39200	NULL	CAB43635	S25 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S26	RPS26A	NULL	T2P4.14	At2g40510	NULL	AAB87594	S26 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S26	RPS26B	NULL	T2P4.6	At2g40590	NULL	AAB87578	S26 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S26	RPS26C	NULL	F18O21.300	At3g56340	NULL	CAB87433	S26 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27	RPS27A	NULL	F4I18.31	At2g45710	NULL	AAC28554	S27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27	RPS27B	NULL	T20K12.10	At3g61110	NULL	CAB71041	S27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27	RPS27C	NULL	T20K12	NULL	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27	RPS27D 	NULL	K16F13.1	At5g47930	NULL	BAB09045	S27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27a	RPS27aA	NULL	F28C11.5	At1g23410	NULL	AAF79581	S27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27a	RPS27aB	NULL	F14M4.6	At2g47100	NULL	AAC34235	S27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S27a	RPS27aC	NULL	T17J13.210	At3g62250	NULL	CAB71885	S27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S28	RPS28A	NULL	T22K18.8	At3g10090	NULL	AAF04415	S28 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S28	RPS28B	NULL	MED24.15	At5g03850	NULL	BAB08611	S28 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S28	RPS28C	NULL	MHJ24.12	At5g64140	NULL	BAB10282	S28 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S29	RPS29A	NULL	T15B3.120	At3g43980	NULL	CAB88126	S29 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S29	RPS29B	NULL	T15B3.150	At3g44010	NULL	CAB88129	S29 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S29	RPS29C	NULL	F17I5.3	At4g33865	NULL	NP_567938	S29 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S29	RPS29D	NULL	F17I5	NULL	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S30	RPS30A	NULL	F6F22.22	At2g19750	NULL	AAC62141	S30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S30	RPS30B	NULL	F19B15	At4g29390	NULL	CAB79697	S30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	S30	RPS30C	NULL	M1K19.12	At5g56670	NULL	BAB09885	S30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P0	RPP0A	NULL	T28M21.17	At2g40010	NULL	AAB95286	P0 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P0	RPP0B	NULL	F3L24.7	At3g09200	NULL	AAF14020	P0 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P0	RPP0C	NULL	F11B9.17	At3g11250	NULL	AAG50973	P0 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P1	RPP1A	NULL	T25K16.9	At1g01100	NULL	AAF26471	P1 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P1	RPP1B	NULL	T18A10.9	At4g00810	NULL	CAB80890	P1 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P1	RPP1C	NULL	MCA23.2	At5g47700	NULL	BAB11317	P1 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P1	RPP1D	NULL	K18P6.3	At5g24510	NULL	NP_197839	"P1 in small subunit, newly identified"	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P1	RPP1E	NULL	T9C5.60	At3g49460	NULL	NP_190515	"P1 in small subunit, newly identified, incomplete ORF"	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P2	RPP2A	NULL	F15K20.18	At2g27720	NULL	AAC73028	P2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P2	RPP2B	NULL	F15K20.19	At2g27710	NULL	AAC73029	P2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P2	RPP2C	NULL	T20D4.1	At3g28500	NULL	BAB01952	P2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P2	RPP2D	NULL	F14L2.140	At3g44590	NULL	CAB88541	P2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P2	RPP2E	NULL	MYH19.9	At5g40040	NULL	AAQ65143	P2 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P3	RPP3A	NULL	F14M19	At4g25890	NULL	CAB39610	P3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	P3	RPP3B	NULL	MJB24.10	At5g57290	NULL	BAA96952	P3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L3	RPL3A 	NULL	F1I21.L3	At1g43170	NULL	AAC36018	L3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L3	RPL3B	NULL	T25B24.7	At1g61580	NULL	AAD25547	L3 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L3	RPL3C	NULL	MDH9.14	At5g42445	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L4	RPL4A	NULL	F11F8.22	At3g09630	NULL	AAF23293	L4 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L4	RPL4B	NULL	T32G9.26	At1g35200	NULL	AAG50600	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L4	RPL4C	NULL	F27A10.4	At2g24730	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L4	RPL4D	NULL	F9G14.180	At5g02870	NULL	CAB86041	L4 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L5	RPL5A	NULL	MWL2.17	At3g25520	NULL	AA000787	L5 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L5	RPL5B	NULL	MKM21.5	At5g39740	NULL	BAB11380	L5 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L5	RPL5C	NULL	MSN9.3	At5g40130	NULL	BAB10894	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L6	RPL6A	NULL	F25I16.12	At1g18540	NULL	AAF98420	L6 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L6	RPL6B	NULL	F2P9.7	At1g74060	NULL	AAG52524	L6 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L6	RPL6C	NULL	F2P9.8	At1g74050	NULL	AAG52527	L6 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7	RPL7A	NULL	F23A5.10	At1g80750	NULL	AAF14663	L7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7	RPL7B	NULL	F10A8.13	At2g01250	NULL	AAD14525	L7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7	RPL7C	NULL	F6E13.25	At2g44120	NULL	AAC23430	L7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7	RPL7D	NULL	K20M4.2	At3g13580	NULL	BAB02600	L7 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7a	RPL7aA	NULL	T30B22.8	At2g47610	NULL	AAC62850	L7a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L7a	RPL7aB	NULL	F26K9.300	At3g62870	NULL	CAB83137	L7a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L8	RPL8A	NULL	T27K22.11	At2g18020	NULL	AAD20124	L8 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L8	RPL8B	NULL	F24M12.230	At3g51190	NULL	CAB62641	L8 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L8	RPL8C	NULL	F23E13.20	At4g36130	NULL	CAA18119	L8 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L9	RPL9A	NULL	T16O9.23	NULL	NULL	AAG51293	L9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L9	RPL9B	NULL	T9L6.2	At1g33120	NULL	AAF97345	L9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L9	RPL9C	NULL	T9L6.5	At1g33140	NULL	AAF97348	L9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L9	RPL9D	NULL	F7L13.30	At4g10450	NULL	CAB40038	L9 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10	RPL10A	NULL	F14L17.9	At1g14320	NULL	AAF43932	L10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10	RPL10B	NULL	T2P11.10	At1g26910	NULL	AAD14497	L10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10	RPL10C	NULL	T12I7.3	At1g66580	NULL	AAG51174	L10 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10a	RPL10aA	NULL	T27G7.6	At1g08360	NULL	AAF22886	L10a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10a	RPL10aB	NULL	F15K20.37	At2g27530	NULL	AAC73045	L10a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L10a	RPL10aC	NULL	MWD9.24	At5g22440	NULL	BAB08343	L10a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L11	RPL11A	NULL	F7D19.26	At2g42740	NULL	AAD21733	L11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L11	RPL11B	NULL	T20N10.50	At3g58700	NULL	CAB88287	L11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L11	RPL11C	NULL	F28A21.140	At4g18730	NULL	CAB37458	L11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L11	RPL11D	NULL	MRA19.21	At5g45775	NULL	BAB09220	L11 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L12	RPL12A	NULL	T2N18.5	At2g37190	NULL	AAD18140	L12 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L12	RPL12B	NULL	F4P12.130	At3g53430	NULL	CAB67650	L12 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L12	RPL12C	NULL	MUP24.9	At5g60670	NULL	BAB09840	L12 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13	RPL13A	NULL	T24C20.10	At3g48130	NULL	CAB51060	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13	RPL13B	NULL	T2J13.150	At3g49010	NULL	CAB62009	L13 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13	RPL13C	NULL	T2J13.200	At3g48960	NULL	CAB62014	L13 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13	RPL13D	NULL	MRO11.6	At5g23900	NULL	BAB10063	L13 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13a	RPL13aA	NULL	T1B9.24	At3g07110	NULL	AAF20235	L13a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13a	RPL13aB	NULL	K7P8.12	At3g24830	NULL	BAB02893	L13a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13a	RPL13aC	NULL	F17N18.60	At4g13170	NULL	CAB41927	L13a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L13a	RPL13aD	NULL	K24G6.9 	At5g48760	NULL	BAB09429	L13a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L14	RPL14A	NULL	T13C7.4	At2g20450	NULL	AAD25645	L14 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L14	RPL14B	NULL	T24A18.40	At4g27090	NULL	CAB79564	L14 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L15	RPL15A	NULL	FCA6	At4g16720	NULL	CAB10447	L15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L15	RPL15B	NULL	FCA8	At4g17390	NULL	CAB10520	L15 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L17	RPL17A	NULL	F17L21.19	At1g27400	NULL	AAF99734	L17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L17	RPL17B	NULL	T1F15.11	At1g67430	NULL	AAC18792	L17 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18	RPL18A	NULL	T30B22.13	At2g47570	NULL	AAC62853	L18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18	RPL18B	NULL	F18C1.14	At3g05590	NULL	AAF26138	L18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18	RPL18C	NULL	F14I23.10	At5g27850	NULL	NP_198137	L18 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18a	RPL18aA	NULL	T1P2.8	At1g29970	NULL	AAG52055	L18a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18a	RPL18aB	NULL	T31E10.18	At2g34480	NULL	AAC26708	L18a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L18a	RPL18aC	NULL	MIE1.10	At3g14600	NULL	BAB02392	L18a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L19	RPL19A	NULL	F22D16.23	At1g02780	NULL	AAF02889	L19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L19	RPL19B	NULL	MGL6.25	At3g16780	NULL	BAB02770	L19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L19	RPL19C	NULL	T2H3.3	At4g02230	NULL	AAC28170	L19 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21A	NULL	F14J9.25	At1g09590	NULL	AAC33220	L21 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21B	NULL	F14J9.30	At1g09486	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21C	NULL	F21M12.8	At1g09690	NULL	AAB60725	L21 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21D	NULL	T19E23.15	At1g31355	NULL	AAF24589	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21E	NULL	T8L23.13	At1g57660	NULL	AAG50742	L21 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21F	NULL	T10K17.30	At3g57820	NULL	CAB67610	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L21	RPL21G	NULL	F12K22.19	At1g57860	NULL	NP_564726	"L21 in small subunit, newly identified"	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L22	RPL22A	NULL	F22D16.17	At1g02830	NULL	AAF02883	L22 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L22	RPL22B	NULL	F18C1.17	At3g05560	NULL	AAF26141	L22 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L22	RPL22C	NULL	T1G16.100	At5g27770	NULL	NP_198129	L22 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L23	RPL23A	NULL	F19P19.5	At1g04480	NULL	AAB70426	L23 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L23	RPL23B	NULL	F4P9.14	At2g33370	NULL	AAB80655	L23 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L23	RPL23C	NULL	T27C4.4	At3g04400	NULL	AAF63771	L23 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L23a	RPL23aA	NULL	F12L6.12	At2g39460	NULL	AAC27837	L23a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L23a	RPL23aB	NULL	T26I12.160	At3g55280	NULL	CAB75762	L23a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L24	RPL24A	NULL	F13K3.2	At2g36620	NULL	AAD20138	L24 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L24	RPL24B	NULL	F8J2.190	At3g53020	NULL	CAB86906	L24 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L24	RPL24C	NULL	T13E15.13	At2g44860	NULL	NP_182013	"L24 in small subunit, newly identified"	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L26	RPL26A	NULL	T16K5.260	At3g49910	NULL	CAB66929	L26 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L26	RPL26B	NULL	K9I9.7	At5g67510	NULL	BAB08459	L26 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27	RPL27A	NULL	F22D22.3	At2g32220	NULL	AAD15383	L27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27	RPL27B	NULL	MKA23.13	At3g22230	NULL	BAB03070	L27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27	RPL27C	NULL	FCA2	At4g15000	NULL	CAB78542	L27 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27a	RPL27aA	NULL	F13K23.22	At1g12960	NULL	AAF78501	L27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27a	RPL27aB	NULL	F26F24.13	At1g23290	NULL	AAF86998	L27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L27a	RPL27aC	NULL	F24J13.17	At1g70600	NULL	AAG52464	L27a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L28	RPL28A	NULL	F6F22.24	At2g19730	NULL	AAC62149	L28 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L28	RPL28B	NULL	MAG2	NULL	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L28	RPL28C	NULL	F17A13.230	At4g29410	NULL	NP_194670	L28 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L29	RPL29A	NULL	F3E22.16	At3g06700	NULL	AAF63828	L29 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L29	RPL29B	NULL	F3E22.18	At3g06680	NULL	AAF63830	L29 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L30	RPL30A	NULL	F15C21.6	At1g36240	NULL	AAG51255	L30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L30	RPL30B	NULL	F28K19.15	At1g77940	NULL	AAF17698	L30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L30	RPL30C	NULL	MVE11.10	At3g18740	NULL	BAB01800	L30 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L31	RPL31A	NULL	 F6F22.23	At2g19740	NULL	AAC62142	L31 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L31	RPL31B	NULL	T25K17.40	At4g26230	NULL	CAB38952	L31 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L31	RPL31C	NULL	MIK19.16	At5g56710	NULL	BAB09889	L31 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L32	RPL32A	NULL	F15J5.70	At4g18100	NULL	CAB53651	L32 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L32	RPL32B	NULL	K11I1.2	At5g46430	NULL	BAB10811	L32 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L34	RPL34A	NULL	T2P11.7	At1g26880	NULL	AAD14494	L34 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L34	RPL34B	NULL	T6C23.18	At1g69620	NULL	AAG52537	L34 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L34	RPL34C	NULL	MLD15.7	At3g28900	NULL	BAB02133	L34 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35	RPL35A	NULL	F11F8.7	At3g09500	NULL	AAF23282	L35 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35	RPL35B	NULL	F12L6.5	At2g39390	NULL	AAC27830	L35 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35	RPL35C	NULL	T26I12.50	At3g55170	NULL	CAB75751	L35 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35	RPL35D	NULL	T22P11.200	At5g02610	NULL	CAB85998	L35 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35a	RPL35aA	NULL	F10K1.22	At1g07070	NULL	AAF82213	L35a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35a	RPL35aB	NULL	F5A13.4	At1g41880	NULL	AAF99832	L35a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35a	RPL35aC	NULL	F1O17.6	At1g74270	NULL	AAG52401	L35a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L35a	RPL35aD	NULL	F1I16.160	At3g55750	NULL	CAB81600	L35a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L36	RPL36A	NULL	F13M22.10	At2g37600	NULL	AAC23630	L36 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L36	RPL36B	NULL	F5K20.40	At3g53740	NULL	CAB88336	L36 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L36	RPL36C	NULL	T22P11.40	At5g02450	NULL	CAB85982	L36 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L36a	RPL36aA	NULL	MLM24.12	At3g23390	NULL	BAB02283	L36a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L36a	RPL36aB	NULL	FCA1	At4g14320	NULL	CAB10211	L36a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37	RPL37A	NULL	F9L1.46	At1g15250	NULL	NP_172977	L37 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37	RPL37B	NULL	F19K6.12	At1g52300	NULL	AAG51542	L37 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37	RPL37C	NULL	MSL1.12	At3g16080	NULL	NP_566535	L37 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37a	RPL37aA	NULL	T4C15.15	At2g35180	NULL	NULL	incomplete ORF	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37a	RPL37aB	NULL	F9F8.23	At3g10950	NULL	AAF01526	L37a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L37a	RPL37aC	NULL	F27H5.3	At3g60245	NULL	NP_567096	L37a in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L38	RPL38A	NULL	T1O24.20	At2g43460	NULL	AAB64338	L38 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L38	RPL38B	NULL	T16L24.90	At3g59540	NULL	CAB75451	L38 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L39	RPL39A	NULL	T22F11.20	At2g25210	NULL	AAD23670	L39 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L39	RPL39B	NULL	F14P3.16	At3g02190	NULL	AAF02118	L39 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L39	RPL39C	NULL	F11C18.17	At4g31985	NULL	NP_567886	L39 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L40	RPL40A	NULL	F9C22.10	At2g36170	NULL	AAM15407	L40 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L40	RPL40B	NULL	F22O6.30	At3g52590	NULL	CAB43405	L40 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41A	NULL	T6H22.15	At1g56045	NULL	AAF02845	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41B	NULL	YUP8H12R	NULL	NULL	NULL	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41C	NULL	T7M7	NULL	NULL	NULL	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41D	NULL	T8G24.5	At3g08520	NULL	NP_187465	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41E	NULL	F9F8.7	At3g11120	NULL	AAF01511	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41F	NULL	MGH6	NULL	NULL	NULL	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoplasmic ribosomal protein gene family	L41	RPL41G	NULL	F27K19.200	At3g56020	NULL	CAB87856	L41 in small subunit	NULL	"1. Arabidopsis orthologues of the 79 rat 80S cytoplasmic ribosomal proteins from the SWISS-PROT library were identified with BLAST search against the NCBI protein or nucleotide database. 2. The identification of the putative ribosomal protein are based on high probability BLAST scores.  With few exceptions, the percentage amino acid sequence identity to rat ribosomal proteins is greater than 50%."	5152	NULL	1545953	11598216	http://138.23.191.134/r-protein%20table.htm	Arabidopsis Cytoplasmic Ribosomal Proteins
Cytoskeleton	Actin	ACT1	NULL	F13M22.12	AT2G37620	18404483	NM_129318	actin 3	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT3	NULL	F5K20_50	AT3G53750	18409907	NM_115235	actin (ACT3)	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT4	NULL	F2O15.3	AT5G59370	18424230	NM_125328	actin 4	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT12	NULL	F12A12.40	AT3G46520	18408216	NM_114519	actin 12	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT11	NULL	T21B14.7	AT3G12110	18399489	NM_112046	actin 11 (ACT11)	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT2	NULL	MVE11.16	AT3G18780	30685074	NM_112764	ACT2/ACT8	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT8	NULL	F27J15.1	AT1G49240	18402543	NM_103814	actin 8	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT7	NULL	MYH9_2	AT5G09810	18416098	NM_121018	ACTIN 2/7 (sp|P53492)	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT5	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Actin	ACT9	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Profilin	PRF1	NULL	F6F22.21	AT2G19760	18399141	NM_127534	profilin 1	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Profilin	PRF2	NULL	F17A13.170	AT4G29350	18417381	NM_119080	profilin 2	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Profilin	PRF3	NULL	MKN22.11	AT5G56600	18423881	NM_125043	profilin-like protein	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Profilin	PRF4	NULL	F17A13.160	AT4G29340	18417380	NM_119079	profilin 3	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
Cytoskeleton	Profilin	PRF5	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	4626	NULL	NULL	NULL	http://www.genetics.uga.edu/RBMSite/Abstracts.html	The Plant Cytoskeleton
NULL	Dof family	AtDof1.1	OBP2	NULL	At1g07640	NULL	NP_850938	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.2	NULL	NULL	At1g21340	NULL	NP_173556	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.3	NULL	NULL	At1g26790	NULL	NP_174001	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.4	NULL	NULL	At1g28310	NULL	NP_174152	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.5	COG1	NULL	At1g29160	NULL	NP_174211	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.6	NULL	NULL	At1g47655	NULL	NP_564510	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.7	ADOF1	NULL	At1g51700	NULL	NP_175581	Dof-type zinc finger domain-containing protein (ADOF1)	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.8	NULL	NULL	At1g64620	NULL	NP_564836	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.9	NULL	NULL	At1g65940	NULL	NULL	"pseudogene, similar to Dof zinc finger protein"	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof1.10	NULL	NULL	At1g69570	NULL	NP_177116	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof2.1	NULL	NULL	At2g28510	NULL	NP_565673	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof2.2	NULL	NULL	At2g28810	NULL	NP_850126	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof2.3	NULL	NULL	At2g34140	NULL	NP_180961	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof2.4	NULL	NULL	At2g37590	NULL	NP_181295	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof2.5	DAG2	NULL	At2g46590	NULL	NP_182182	Dof zinc finger protein DAG2 / Dof affecting germination 2 (DAG2)	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.1	ADOF2	NULL	At3g21270	NULL	NP_188764	Dof-type zinc finger domain-containing protein (ADOF2)	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.2	NULL	NULL	At3g45610	NULL	NP_190147	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.3	NULL	NULL	At3g47500	NULL	NP_190334	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.4	OBP1	NULL	At3g50410	NULL	NP_190610	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.5	NULL	NULL	At3g52440	NULL	NP_190812	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.6	OBP3	NULL	At3g55370	NULL	NP_191097	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof3.7	DAG1;BBFa	NULL	At3g61850	NULL	NP_191744	Dof zinc finger protein DAG1 / Dof affecting germination 1 (DAG1) / transcription factor BBFa (BBFA)	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.1	NULL	NULL	At4g00940	NULL	NP_192003	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.2	NULL	NULL	At4g21030	NULL	NP_193835	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.3	NULL	NULL	At4g21040	NULL	NP_193836	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.4	NULL	NULL	At4g21050	NULL	NP_193837	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.5	NULL	NULL	At4g21080	NULL	NP_193840	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.6	NULL	NULL	At4g24060	NULL	NP_567693	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof4.7	NULL	NULL	At4g38000	NULL	NP_195513	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.1	NULL	NULL	At5g02460	NULL	NP_195866	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.2	NULL	NULL	At5g39660	NULL	NP_851106	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.3	NULL	NULL	At5g60200	NULL	NP_568920	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.4	OBP4	NULL	At5g60850	NULL	NP_200893	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.5	NULL	NULL	At5g62430	NULL	NP_201049	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.6	NULL	NULL	At5g62940	NULL	NP_201099	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.7	NULL	NULL	At5g65590	NULL	NP_201362	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
NULL	Dof family	AtDof5.8	NULL	NULL	At5g66940	NULL	NP_201495	Dof-type zinc finger domain-containing protein	NULL	Defined by the presence of the highly-conserved Dof-type zinc finger (C2-X21-C2) motif.	1501417250	NULL	501682896	12475498	NULL	NULL
PP2C-type phosphatases	Group A	NULL	NULL	MIO24_11	AT5g51760	15242182	NP_199989	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	AtPP2CA	NULL	F24K9_8	AT3g11410	15229745	NP_187748	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	NULL	NULL	MNC17_13	AT5g59220	15237839	NP_200730	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	NULL	NULL	F22G5_22	AT1g07430	15222398	NP_172223	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	NULL	NULL	F16P2_2	AT2g29380	15227078	NP_180499	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	HAB2	NULL	F1L3_38	AT1g17550	30685388	NP_173199	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	HAB1	NULL	F28P22_4	AT1g72770	15218595	NP_177421	protein phosphatase 2C P2C-HA	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	ABI1	NULL	F20B18_190	AT4g26080	15236110	NP_194338	protein phosphatase 2C ABI1	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group A	ABI2	NULL	MHM17_19	AT5g57050	15242022	NP_200515	protein phosphatase 2C ABI2	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AP2C4	NULL	F12A21_5	AT1g67820	15220548	NP_176948	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AthPP2C5	AP2C3	T7M7_17	AT2g40180	15225656	NP_181547	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AP2C2	NULL	F10K1_13	AT1g07160	15222312	NP_172196	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AP2C1	NULL	F23F1_6	AT2g30020	15227687	NP_180563	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AP2C6	NULL	MYF5_1	AT3g27140	22331365	NP_189350	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group B	AP2C5	NULL	T12G13_100	AT4g08260	15236450	NP_192566	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	NULL	NULL	MGL6_2	AT3g16560	18401175	NP_566554	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPOL	NULL	F14M4_25	AT2g46920	30690550	NP_850463	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPLL1	NULL	T32F12_27	AT2g35350	15226962	NP_181078	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPLL5	NULL	F24B9_31	AT1g07630	18390789	NP_563791	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPLL4	NULL	F8N16_18	AT2g28890	15226985	NP_180455	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPLL3	NULL	F3L24_29	AT3g09400	15232663	NP_187551	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group C	AtPLL2	NULL	T1E22_160	AT5g02400	15241790	NP_195860	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	F9G14_70	AT5g02760	30679755	NP_195896	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	K14A17_4	AT3g17090	18401370	NP_566566	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	T2E22_7	AT3g12620	15230540	NP_187868	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	T15C9_50	AT3g55050	30694180	NP_191065	serine/threonine protein phosphatase 2C (PP2C6)	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	F22I13_4	AT4g38520	22329238	NP_195564	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	F26O13_10	AT3g51370	18409328	NP_566949	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	K2A18_16	AT5g66080	15239244	NP_201409	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	F17I5_110	AT4g33920	15235152	NP_195118	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group D	NULL	NULL	MPH15_11	AT5g06750	18415301	NP_568174	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	AtPP2C6-6	NULL	F21B7_20	AT1g03590	15218856	NP_171856	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F3O9_3	AT1g16220	15219170	NP_173072	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F20B17_6	AT1g79630	22330744	NP_178081	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F7A7_220	AT5g01700	30679372	NP_195790	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F13E7_31	AT3g02750	15232961	NP_186924	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	T30G6_11	AT5g36250	15239351	NP_198474	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	T1N24_8	AT5g26010	15239565	NP_197973	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F26P21_70	AT4g32950	15233997	NP_195021	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	K20I9_2	AT3g16800	15228871	NP_188303	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F18C1_9	AT3g05640	15230022	NP_187215	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	AtPP2C6-7	NULL	F14I23_90	AT5g27930	30690850	NP_851086	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	T2G17_15	AT2g20050	15225289	NP_179595	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group E	NULL	NULL	F28L1_21	AT3g06270	22330873	NP_187278	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	MLM24_7	AT3g23360	15229429	NP_188978	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	T29F13_5	AT2g34740	15226814	NP_181021	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	T11I11_14	AT1g78200	18411863	NP_565172	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	T16E15_10	AT1g22280	18395099	NP_564165	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F21H2_4	AT1g34750	15218759	NP_174731	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	K7L4_6	AT3g15260	15232538	NP_188144	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F23N11_5	AT2g20630	18399423	NP_565480	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F20O9_80	AT4g28400	18417190	NP_567808	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F9C16_6	AT1g43900	30693757	NP_175057	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	MFH8_8	AT5g53140	18423476	NP_568786	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F28M20_60	AT4g31750	30689144	NP_194903	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	F6A4_150	AT5g24940	15238651	NP_197876	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group F	NULL	NULL	MAJ23_3	AT5g10740	18416366	NP_568237	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	T17J13_220	AT3g62260	15228717	NP_191785	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	T2J15_5	AT1g48040	15221047	NP_175238	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	MGD8_13	AT3g17250	30684431	NP_188351	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	F3N11_7	AT2g25620	15224766	NP_180133	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	T1B8_2	AT2g33700	15226152	NP_180926	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group G	NULL	NULL	F26O13_110	AT3g51470	15230495	NP_190715	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group H	NULL	NULL	T12M4_15	AT1g09160	15217454	NP_172388	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group H	NULL	NULL	T3F24_2	AT1g47380	18401703	NP_564504	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group H	NULL	NULL	T2E12_9	AT1g68410	15221404	NP_177008	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group I	NULL	NULL	F27C12_1	AT2g25070	15224677	NP_180079	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group I	NULL	NULL	F11C18_60	AT4g31860	15236548	NP_194914	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group J	NULL	NULL	F16M2_170	AT3g63320	15229412	NP_191891	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	Group J	NULL	NULL	F16M2_190	AT3g63340	18412730	NP_567145	protein phosphatase 2C-related	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	NULL	NULL	T22B4_20	AT4g11040	15237025	NP_192842	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	NULL	NULL	F9E10_14	AT1g75010	15222086	NP_177638	MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	NULL	NULL	T10F20_4	AT1g18030	18394565	NP_564045	"protein phosphatase 2C, putative"	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	PPH1	NULL	T27E11_40	AT4g27800	30687733	NP_849459	protein phosphatase 2C PPH1	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	NULL	NULL	T20B5_7	AT2g40860	30688440	NP_850336	protein phosphatase 2C family protein	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
PP2C-type phosphatases	NULL	KAPP	NULL	F7K24_30	AT5g19280	15239690	NP_197429	kinase associated protein phosphatase (KAPP)	NULL	Defined by the presence of the PP2C catalytic domain	3269	NULL	501712502	15130549	http://www.univie.ac.at/genetik/research/Meskiene/meskiene.html	Arabidopsis PP2Cs
Protein synthesis factors	eIF1 - eukaryotic initiation factor 1	AteIF1-1	NULL	T24A18.80	AT4G27130	18416929	NM_118847	translation initiation factor	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF1 - eukaryotic initiation factor 1	AteIF1-2	NULL	MBG8.2	AT5G54760	18423665	NM_124857	protein translation factor Sui1 homolog (sp P41568)	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF1 - eukaryotic initiation factor 1	AteIF1-3	NULL	MBG8.21	AT5G54940	18423690	NM_124876	translation initiation factor-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF1 - eukaryotic initiation factor 1	AteIF1-4	NULL	F20D21.11	AT1G54290	18404869	NM_104307	"protein translation factor Sui1 homolog, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF1A - eukaryotic initiation factor 1A	AteIF1A-1	NULL	MXH1.2	AT5G35680	18421484	NM_122959	expressed protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF1A - eukaryotic initiation factor 1A	AteIF1A-2	NULL	T1O3.7	AT2G04520	18395771	NM_126483	putative translation initiation factor eIF-1A	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2 - eIF2alpha eukaryotic initiation factor 2alpha	AteIF2-A1	NULL	T3G21.6	AT2G40290	18405333	NM_129587	"putative eukaryotic translation initiation factor 2 alpha subunit, eIF2"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2 - eIF2alpha eukaryotic initiation factor 2alpha	AteIF2-A2	NULL	K18I23.28	AT5G05470	18414899	NM_120629	eukaryotic translation initiation factor 2 alpha subunit-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2beta - eukaryotic initiation factor 2beta	AteIF2-B1	NULL	F22D1.90	AT5G20920	18420349	NM_122100	translation initiation factor eIF-2 beta chain - like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2beta - eukaryotic initiation factor 2beta	AteIF2-B2	NULL	T20L15.210	AT5G01940	18413792	NM_120272	translation initiation factor eIF-2 beta chain-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2beta - eukaryotic initiation factor 2beta	AteIF2-B3	NULL	F17A17.26	AT3G07920	18398097	NM_111671	putative eukaryotic translation initiation factor 2 beta subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2gamma - eukaryotic initiation factor 2gamma	AteIF2-G1	NULL	F20D22.6	AT1G04170	18379257	NM_100298	"translation initiation factor eIF-2 gamma subunit, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2gamma - eukaryotic initiation factor 2gamma	AteIF2-G2	NULL	T9A21.180	AT4G18330	18415065	NM_117943	translation initiation factor eIF-2 gamma chain-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2gamma - eukaryotic initiation factor 2gamma	AteIF2-G3	NULL	MSF3.10	AT2G18720	18398827	NM_127428	"translation initiation factor eIF-2 gamma subunit, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Balpha - eukaryotic initiation factor 2Balpha	AteIF2B-A1	NULL	T18A20.11	AT1G53880	18404684	NM_104265	unknown protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Balpha - eukaryotic initiation factor 2Balpha	AteIF2B-A2	NULL	T10D10.19	AT1G72340	18410056	NM_105893	putative translation initiation factor EIF-2B alpha subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Balpha - eukaryotic initiation factor 2Balpha	AteIF2B-A3	NULL	T6P5.3	AT2G05830	18396169	NM_126596	putative translation initiation factor eIF-2B alpha subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Bbeta - eukaryotic initiation factor 2Bbeta	AteIF2B-B1	NULL	T1B9.3	AT3G07300	18397910	NM_111610	putative translation initiation factor EIF-2B beta subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Bdelta - eukaryotic initiation factor 2Bdelta	AteIF2B-D1	NULL	MBB18.19	AT5G38640	18421779	NM_123225	putative protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Bdelta - eukaryotic initiation factor 2Bdelta	AteIF2B-D2	NULL	F6E13.43	AT2G44070	18406442	NM_129970	putative translation initiation factor eIF-2B delta subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2Bdelta - eukaryotic initiation factor 2Bdelta	AteIF2B-D3	NULL	F27K7.2	AT1G48970	18402444	NM_103790	hypothetical protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIF2Bepsilon, g - eukaryotic initiation factor 2Bepsilon, 2Bgamma"	AteIF2B-E1	NULL	F19I3.20	AT2G34970	18403702	NM_129049	putative translation initiation factor eIF-2B epsilon subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIF2Bepsilon, g - eukaryotic initiation factor 2Bepsilon, 2Bgamma"	AteIF2B-E2	NULL	F14P3.8	AT3G02270	18396127	NM_111094	putative translation initiation factor EIF-2B epsilon subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIF2Bepsilon, g - eukaryotic initiation factor 2Bepsilon, 2Bgamma"	AteIF2B-E3	NULL	T9A21.150	AT4G18300	18415061	NM_117940	initiation factor-2Bepsilon-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2C - eukaryotic initiation factor 2C	AGOI	NULL	T1N15.2;F11A17_3	AT1G48410	18402180	NM_103737	leaf development protein Argonaute	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF2C - eukaryotic initiation factor 2C	ZWILLE	NULL	MQD19.17	AT5G43810	18422374	NM_123748	PINHEAD (gb|AAD40098.1); translation initiation factor	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3a - eukaryotic initiation factor 3a	AteIF3A-1	NULL	F25E4.40	AT4G11420	18413523	NM_117213	putative protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3b - eukaryotic initiation factor 3b	AteIF3B-1	NULL	F15A18.100	AT5G27640	18421139	NM_122646	TRANSLATION INITIATION FACTOR 3 SUBUNIT 9-like protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3b - eukaryotic initiation factor 3b	AteIF3B-2	NULL	NULL	AT5G25780	18420951	NM_122479	eukaryotic translation initiation factor - like protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3c - eukaryotic initiation factor 3c	AteIF3C-1	NULL	NULL	AT3G56150	NULL	NULL	PROBABLE EUKARYOTIC TRANSLATION INITIATION FACTOR 3 SUBUNIT 8	NULL	NULL	5220	NULL	1949	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3c - eukaryotic initiation factor 3c	AteIF3C-2	NULL	F5N5.5;F5N5_3	AT3G22860	18403557	NM_113186	eukaryotic translation initiation factor 3 (subunit 8)	NULL	NULL	5220	NULL	1949	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3d - eukaryotic initiation factor 3d	AteIF3D-1	NULL	T13K14.140	AT4G20980	18415603	NM_118216	translation initiation factor eIF3 - like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3d - eukaryotic initiation factor 3d	AteIF3D-2	NULL	K9L2.10	AT5G44320	18422429	NM_123799	eukaryotic translation initiation factor 3 subunit 7	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3e - eukaryotic initiation factor 3e	AteIF3E-1	NULL	F28O9.140	AT3G57290	NULL	NULL	translation initiation factor 3 -like protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3f - eukaryotic initiation factor 3f	AteIF3F-1	NULL	T28M21.15	AT2G39990	18405225	NM_129557	26S proteasome regulatory subunit	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3g - eukaryotic initiation factor 3g	AteIF3G-1	NULL	F24K9.7	AT3G11400	18399216	NM_111973	putative eukaryotic translation initiation factor 3 subunit	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3g - eukaryotic initiation factor 3g	AteIF3G-2	NULL	K18J17.20	AT5G06000	18415062	NM_120682	eukaryotic translation initiation factor 3 subunit-like protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3h - eukaryotic initiation factor 3h	AteIF3H-1	NULL	T16B5.2	AT1G10840	18391210	NM_100960	putative translation initiation factor	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3i - eukaryotic initiation factor 3i	AteIF3I-1	NULL	T3F17.45	AT2G46280	18407031	NM_130191	eukaryotic translation initiation factor 3 delta subunit	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3i - eukaryotic initiation factor 3i	AteIF3I-2	NULL	T3F17.3	AT2G46290	18407034	NM_130192	eukaryotic translation initiation factor 3 delta subunit	NULL	NULL	5220	NULL	1346711;12462	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3k - eukaryotic initiation factor 3k	AteIF3K-1	NULL	F17M5.10	AT4G33250	18418177	NM_119479	putative protein	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF3l - eukaryotic initiation factor 3l	AteIF3L-1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	1346711	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A - eukaryotic initiation factor 4A	AteIF4A-1	AtRH4	MDC16.5;MDC16_4	AT3G13920	18400209	NM_112246	"Eukaryotic initiation factor 4A, putative"	NULL	NULL	5220	NULL	5337	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A - eukaryotic initiation factor 4A	AteIF4A-2	AtRH19	F20D21.9;F20D21_5	AT1G54270	18404860	NM_104305	"eukaryotic translation initiation factor 4A, putative"	NULL	NULL	5220	NULL	5337	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A-like - RNA helicases most related to eIF4A	RH23	NULL	F28P22.8	AT1G72730	18410170	NM_105932	putative Eukaryotic initiation factor 4A	NULL	NULL	5220	NULL	1925	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A-like - RNA helicases most related to eIF4A	RH2	NULL	MMB12.4;MMB12_21	AT3G19760	18402360	NM_112866	"RNA helicase, putative"	NULL	NULL	5220	NULL	1925	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A-like - RNA helicases most related to eIF4A	RH15-1	NULL	F2I11.90	AT5G11200	18416492	NM_121158	DEAD BOX RNA helicase RH15	NULL	NULL	5220	NULL	1925	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4A-like - RNA helicases most related to eIF4A	RH15-2	NULL	F2I11.60	AT5G11170	18416485	NM_121155	DEAD BOX RNA helicase RH15 - like protein	NULL	NULL	5220	NULL	1925	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4B - eukaryotic initiation factor 4B	AteIF4B-1	NULL	F20C19.16;F20C19_12	AT3G26400	18404928	NM_113547	"eukaryotic translation initiation factor 4B, putative"	NULL	NULL	5220	NULL	902	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4B - eukaryotic initiation factor 4B	AteIF4B-2	NULL	F3F19.4	AT1G13020	18391465	NM_101172	unknown protein	NULL	NULL	5220	NULL	902	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4B - eukaryotic initiation factor 4B	4B-3?	NULL	F20M13.270	AT4G38710	18420294	NM_120032	putative protein	NULL	NULL	5220	NULL	902	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4E - eukaryotic initiation factor 4E	AteIF4E-1	NULL	F15J5.10	AT4G18040	18415012	NM_117914	translation initiation factor eIF4E	NULL	NULL	5220	NULL	2331	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4E - eukaryotic initiation factor 4E	AteIF4E-2	NULL	F15D2.16	AT1G29590	18397162	NM_102699	"eukaryotic translation initiation factor 4E, putative"	NULL	NULL	5220	NULL	2331	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4E - eukaryotic initiation factor 4E	AteIF4E-3	NULL	F15D2.13	AT1G29550	18397143	NM_102695	"eukaryotic translation initiation factor 4E, putative"	NULL	NULL	5220	NULL	2331	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIFiso4E - eukaryotic initiation factor 4E, isozyme form"	AteIFiso4E-1	NULL	MJE4.8	AT5G35620	18421477	NM_122953	eIF4Eiso protein (emb|CAA71579.1)	NULL	NULL	5220	NULL	2331	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	nCBP - novel cap binding protein	unassigned-nCBP	NULL	MRG7.7	AT5G18110	18418518	NM_121816	eukaryotic cap-binding protein (gb|AAC17220.1)	NULL	NULL	5220	NULL	2583	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4G - eukaryotic initiation factor 4G	AteIF4G-1	NULL	F27H5.30	AT3G60240	18411535	NM_115887	protein synthesis initiation factor - like	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIFiso4G - eukaryotic initiation factor 4G, isozyme form"	AteIFiso4G-1	NULL	MTI20.13	AT5G57870	18424037	NM_125172	"eukaryotic initiation factor 4, eIF4-like protein"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	"eIFiso4G - eukaryotic initiation factor 4G, isozyme form"	AteIFiso4G-2	NULL	T29E15.25	AT2G24050	18400444	NM_127967	"putative eukaryotic initiation factor 4, eIF4"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4G-like - related to eIF4G	unassigned	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4G-like - related to eIF4G	"unassigned, similarity to 4G"	NULL	F24O1.14;F24O1_43	AT1G62410	18407578	NM_104921	"initiation factor isozyme 4F p82 subunit, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF4G-like - related to eIF4G	unassigned-mystery-4g-like-protein	NULL	T10C21.30	AT4G30680	18417642	NM_119214	translation initiation factor-like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5 - eukaryotic initiation factor 5	AteIF5-1	NULL	T32E8.15	AT1G77840	18411718	NM_106433	"eukaryotic initiation factor 5 (eIF-5), putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5 - eukaryotic initiation factor 5	AteIF5-2	NULL	T15P17.7	AT1G36730	18400168	NM_103340	"Eukaryotic translation initiation factor 5, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5A - eukaryotic initiation factor 5A	AteIF5A-1	NULL	T24P13.1	AT1G26630	18395983	NM_102425	"initiation factor 5A-4, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5A - eukaryotic initiation factor 5A	AteIF5A-2	NULL	F10D13.8	AT1G69410	18409264	NM_105608	"Eukaryotic initiation factor 5A , putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5A - eukaryotic initiation factor 5A	AteIF5A-3	NULL	F16A14.17	AT1G13950	18394051	NM_101261	initiation factor 5A-4	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5B - eukaryotic initiation factor 5B	AteIF5B-1	NULL	F28O16.18	AT1G76810	18411209	NM_106331	"translation initiation factor eIF-2, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5B - eukaryotic initiation factor 5B	AteIF5B-2	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5B - eukaryotic initiation factor 5B	AteIF5B-3	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5B - eukaryotic initiation factor 5B	AteIF5B-4	NULL	T22I11.2	AT1G21160	18394960	NM_101970	"translation initiation factor eIF-2, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF5B - eukaryotic initiation factor 5B	AteIF5B-5	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF6 - eukaryotic initiation factor 6	AteIF6-1	NULL	F1I16.30	AT3G55620	18410322	NM_115420	eukaryotic translation initiation factor 6 (EIF-6) - like protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	eIF6 - eukaryotic initiation factor 6	AteIF6-2	NULL	T5I7.12	AT2G39820	18405177	NM_129541	putative translation initiation factor	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	AtPAB1	NULL	T20D16.2	AT2G23350	18400245	NM_127899	putative poly(A) binding protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	AtPAB2	NULL	F28A23.130	AT4G34110	18418374	NM_119572	poly(A)-binding protein	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	AtPAB3	NULL	T22J18.7	AT1G22760	18395157	NM_102123	"putative polyA-binding protein, PAB3"	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	AtPAB5	NULL	F14O23.15	AT1G71770	18409909	NM_105835	polyadenylate-binding protein 5	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	PAB6??	NULL	MYA6.16;MYA6_12	AT3G16380	18401110	NM_112509	putative poly(A) binding protein	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	unnamed-PAB-like	NULL	F14J22.3;F14J22_7	AT1G49760	18402768	NM_103863	"poly(A)-binding protein, putative"	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	unnamed-PAB-like	NULL	F13K3.6	AT2G36660	18404186	NM_129221	"poly(A)-binding protein, putative"	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	unnamed-PAB-like	NULL	NULL	AT1G34140	18399146	NM_103137	"poly(A)-binding protein, putative"	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	PABP - poly(A) binding protein	PAB2??	NULL	MQN23.20	AT5G65250	18424928	NM_125923	expressed protein	NULL	NULL	5220	NULL	5094;5143	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1A - elongation factor 1A	AteEF1A-1	NULL	T6D22.2	AT1G07920	18390826	NM_100666	elongation factor 1-alpha (EF-1-alpha)	NULL	NULL	5220	NULL	5672	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1A - elongation factor 1A	AteEF1A-2	NULL	T6D22.31;T6D22_3	AT1G07930	18390828	NM_100667	elongation factor 1-alpha (EF-1-alpha)	NULL	NULL	5220	NULL	5672	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1A - elongation factor 1A	AteEF1A-3	NULL	T6D22.3;T6D22_14	AT1G07940	18390830	NM_100668	elongation factor 1-alpha (EF-1-alpha)	NULL	NULL	5220	NULL	5672	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1A - elongation factor 1A	AteEF1A-4	NULL	MUF9.8;MUF9_40	AT5G60390	18424350	NM_125432	elongation factor 1-alpha (EF-1-alpha)	NULL	NULL	5220	NULL	5672	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Balpha - elongation factor 1Balpha	AteEF1B-A1	NULL	MXC9.7	AT5G12110	18416774	NM_121249	elongation factor 1B alpha-subunit (emb|CAB64729.1)	NULL	NULL	5220	NULL	864	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Balpha - elongation factor 1Balpha	AteEF1B-A2	NULL	T20D1.30	AT5G19510	18419933	NM_121956	elongation factor 1B alpha-subunit	NULL	NULL	5220	NULL	864	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Bbeta - elongation factor 1Bbeta	AteEF1B-B1	NULL	F12P21.12	AT1G30230	18397414	NM_102762	"elongation factor 1-beta, putative"	NULL	NULL	5220	NULL	3888	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Bbeta - elongation factor 1Bbeta	AteEF1B-B2	NULL	T27K22.2;F8D23_11	AT2G18110	18398625	NM_127367	putative elongation factor beta-1	NULL	NULL	5220	NULL	3888	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Bgamma - elongation factor 1Bgamma	AteEF1B-G1	NULL	F21M12.3	AT1G09640	18391047	NM_100836	expressed protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF1Bgamma - elongation factor 1Bgamma	AteEF1B-G2	NULL	T8L23.18	AT1G57720	18406041	NM_104568	"elongation factor 1B gamma, putative"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF2 - elongation factor 2	AteEF2-1	NULL	T6H22.24;T6H22_13	AT1G56070	NULL	NULL	"pseudogene, putative elongation factor"	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	EF2 - elongation factor 2	AteEF2-2	NULL	MXC7.1	AT3G22980	18403606	NM_113198	elongation factor Tu family protein	NULL	NULL	5220	NULL	NULL	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	RF1 - release factor 1	AteRF1-1	NULL	MCA23.22	AT5G47880	18422847	NM_124162	eukaryotic release factor 1 homolog (gb|AAA91169.1)	NULL	NULL	5220	NULL	3644	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	RF1 - release factor 1	AteRF1-2	NULL	F13K23.17;F13K23_19	AT1G12920	18391454	NM_101163	"eukaryotic peptide chain release factor subunit 1, putative"	NULL	NULL	5220	NULL	3644	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	RF1 - release factor 1	AteRF1-3	NULL	MLJ15.16;MLJ15_1	AT3G26618	18405018	NM_113572	Eukaryotic peptide chain release factor subunit 1 (ERF1)	NULL	NULL	5220	NULL	3644	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	RF3 - release factor 3	AteRF3-1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	5220	NULL	3644	NULL	http://www.cm.utexas.edu/browning/db/	Protein synthesis factors in Arabidopsis
Protein synthesis factors	RF-S? - release factor S?	AteRF-S?	NULL	F12B17.20	AT5G10630	18416335	NM_121101	putative protein	NULL	NULL	5220	NULL	3644	NULL	http://www.cm.utexas.edu/browning/db/	NULL
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT1	NULL	F1707.13	At1g70330	NULL	AAC18807	equilibrative nucleoside transporter family protein	NULL	homology to human ENTs and experimental	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT2	NULL	T22K18	At3g09990	NULL	AAF04424	"equilibrative nucleoside transporter, putative (ENT2)"	NULL	"sequence identity to AtENT1: 29,5%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT3	NULL	C17L7	At4g05120	NULL	CAB81054	"equilibrative nucleoside transporter, putative (ENT3)"	NULL	"sequence identity to AtENT1: 28,7%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT4	NULL	C17L7	At4g05130	NULL	CAB81055	"equilibrative nucleoside transporter, putative (ENT4)"	NULL	"sequence identity to AtENT1: 27,0%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT5	NULL	C17L7	At4g05140	NULL	CAB81056	"equilibrative nucleoside transporter, putative (ENT5)"	NULL	sequence identity to AtENT1: 25%	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT6	NULL	C17L7	At4g05110	NULL	CAB81053	"equilibrative nucleoside transporter, putative (ENT6)"	NULL	"sequence identity to AtENT1: 28,2%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT7	NULL	T25B24	At1g61630	NULL	AAD25545	"equilibrative nucleoside transporter, putative (ENT7)"	NULL	"sequence identity to AtENT1: 27,8%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
"Transporter Superfamily (uniporter, symporter, antiporter)"	Equilibrative Nucleoside Transporter Family (ENT)	AtENT8	NULL	T14P4	At1g02630	NULL	AAG10625	"equilibrative nucleoside transporter, putative (ENT8)"	NULL	"sequence identity to AtENT1: 47,6%"	2062	NULL	1546203	11749958	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/moehl.htm	Plant Nucleoside Transporters
Expansins	Alpha-Expansin Gene Family	AtEXPA1	EXP1	F10D13_18	AT1G69530	12597783	AAG60095 	expansin (AT-EXP1)	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA2	EXP2	K18I23_9	AT5G05290	13357158	U30481	expansin AT-EXP2 (gb|AAB38073.1)	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA3	EXP3	F13M22.14	AT2G37640	20197248	AC004684	putative expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA4	EXP4	F17A14.7	AT2G39700	20197044	AC003674	putative expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA5	EXP5	K5K13_14	AT3G29030	1041703	U30478	expansin AT-EXP5	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA6	EXP6	F16P17_31	AT2G28950	17865811	U30480	"expansin AT-EXP6, putative"	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA7	EXP7	F5O11.30	AT1G12560	8050885	AC025416	hypothetical protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA8	EXP8	T2P4.4	AT2G40610	20196870	AC002336	putative expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA9	EXP9	T1E22_20	AT5G02260	15451011	NULL	expansin precursor - like protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA10	EXP10	T24P13.15	AT1G26770	7385136	AF229437	expansin 10	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA11	EXP11	T20H2_5	AT1G20190	12083279	AF332436	"expansin S2 precursor, putative"	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA12	EXP12	MJK13.3	AT3G15370	18400747	NM_112405	putative expansin S2 precursor	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA13	EXP13	T17B22.9	AT3G03220	21281242	NULL	putative expansin precursor	caution: probable incorrect annotation of genomic sequence because of wrong intron/exon predictions	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA14	EXP14	MCD7.4	AT5G56320	21406367	NULL	expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA15	EXP15	T17M13.26	AT2G03090	18176130	NULL	putative expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA16	EXP16	T22E16.160	AT3G55500	NM_115407	NM_115407	expansin-like protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA17	EXP17	T15B16.16	AT4G01630	NM_116393	NM_116393	putative expansin	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA18	EXP18	F16P17.14	AT1G62980	12083295	AF332444	"expansin AT-EXP6, putative"	"annotations OK, except NOT expansin 6"	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA19	EXP19	MUO10.8	AT3G29365	NULL	NULL	"pseudogene, putative expansin precursor"	"error in sequence, making it appear to be pseudogene; correction pending"	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA20	EXP20	F20D10.330	AT4G38210	NM_119982	NM_119982	expansin -like protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA21	EXP21	K3K3.110	AT5G39260	NM_123288	NM_123288	expansin-like protein	caution: predicted translation start may be in error; upstream in-frame ATGs	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA22	EXP22	K3K3.120	AT5G39270	NM_123289	NM_123289	expansin-like protein	caution: intron splice prediction probably incorrect; predicted start site and signal peptide cut sites are uncertain	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA23	EXP23	K3K3.130	AT5G39280	NM_123290	NM_123290	expansin-like protein	caution: intron splice prediction probably incorrect; predicted start site and signal peptide cut sites are uncertain	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA24	EXP24	K3K3_22	AT5G39310	NM_123293	NM_123293	expansin-like protein	caution: intron splice prediction probably incorrect; predicted start site and signal peptide cut sites are uncertain	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA25	EXP25	K3K3_21	AT5G39300	18421851	NM_123292	expansin-like protein	caution: intron splice prediction probably incorrect; predicted start site and signal peptide cut sites are uncertain	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Alpha-Expansin Gene Family	AtEXPA26	EXP26	K3K3_20	AT5G39290	18421850	NM_123291	expansin-like protein	caution: intron splice prediction probably incorrect; predicted start site and signal peptide cut sites are uncertain	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB1	EXPB1	F5H14.28	AT2G20750	NM_127640	NM_127640	beta-expansin pollen allergen protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB2	EXPB2	F1E22.6	AT1G65680	NULL	NULL	"pollen allergen, putative"	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB3	EXPB3	F26K10.130	AT4G28250	NM_118965	NM_118965	beta-expansin pollen allergen protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB4	EXPB4	T14P1.32	AT2G45110	NM_130074	NM_130074	beta-expansin pollen allergen protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB5	EXPB5	T8B10.230	AT3G60570	NM_115921	NM_115921	putative protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Beta-Expansins	AtEXPB6	NULL	NULL	NULL	NULL	NULL	inconplete gene	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Expansin-Like Family A	AtEXLA1	EXPL1	F16L2_180	AT3G45970	NM_114466	NM_114466	putative protein	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Expansin-Like Family A	AtEXLA2	EXPL2	F22I13.170	AT4G38400	14190354	AF378855	putative pollen allergen	NULL	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Expansin-Like Family A	AtEXLA3	EXPL3	F16L2_170	AT3G45960	30692656	NM_114465	putative protein	caution: probable incorrect annotation	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
Expansins	Expansin-Like Family B	AtEXLB1	EXPR	dl4545c	AT4G17030	NULL	NULL	allergen like protein	caution: probable incorrect annotation	NULL	5092	NULL	1546271	NULL	http://www.bio.psu.edu/expansins/index.htm	Expansin Central
F-Box Proteins	F-Box Protein Subfamily	FBP At1	NULL	F2G19_16	At1g47056	12321015	AAG50633	"F-box family protein, similar to SKP1 interacting partner 2 (SKP2) TIGR_Ath1:At5g67250."	NULL	contains F-box domain and leucine-rich repeat domain	507	NULL	501681836	12169662	http://www.uni-tuebingen.de/uni/bce/schwech/index.html	Laboratory of Dr. Claus Schwechheimer
F-Box Proteins	F-Box Protein Subfamily	FBP At3	NULL	F3A4_160	At3g50080	18409012	NP_566928	"F-box family protein (FBL16), contains similarity to SKP1 interacting partner 2 GI:10716949 from [Arabidopsis thaliana], contains pFam profile: PF00646 F-box domain"	NULL	contains F-box domain and leucine-rich repeat domain	507	NULL	501681836	12169662	http://www.uni-tuebingen.de/uni/bce/schwech/index.html	Laboratory of Dr. Claus Schwechheimer
F-Box Proteins	F-Box Protein Subfamily	FBP At4	NULL	F28D6_13	At4g07400	5732048	AAD48947	"F-box protein (FBL8) (FBL24), containss similarity to SKP1 interacting partner 2 GI:10716949 [Arabidopsis thaliana]; contains Pfam PF00646: F-box domain"	NULL	contains F-box domain and leucine-rich repeat domain	507	NULL	501681836	12169662	http://www.uni-tuebingen.de/uni/bce/schwech/index.html	Laboratory of Dr. Claus Schwechheimer
F-Box Proteins	F-Box Protein Subfamily	FBP At5	NULL	K21H1_6	At5g67250	10716949	AAG21977	SKP1 interacting partner 2 (SKP2)	NULL	contains F-box domain and leucine-rich repeat domain	507	NULL	501681836	12169662	http://www.uni-tuebingen.de/uni/bce/schwech/index.html	Laboratory of Dr. Claus Schwechheimer
FH2 proteins	Class I formin family	AtFH1	AFH1;AtFORMIN8	MWL2.16	At3g25500	AF174427	AAF14548	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	161;501682561;501712856;501716311;501711650	10929945|0012417149|15256004|15994911|14671023	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins 
FH2 proteins	Class I formin family	AtFH2	AtFORMIN2	F18O19.9	At2g43800	NM_129942	NP_181908	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH3	AtFORMIN3	FCAALL.218	At4g15200	BK004092	DAA04450	"actin nucleating protein, transmembrane?, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH4	AtFORMIN4	F3I6.8	At1g24150	BK004101	DAA04459	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH5	AtFORMIN5	MRB17.15	At5g54650	NULL	AAK68741	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856;501716810;501715029;501713410	0012417149|15256004|15765105	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH6	AtFORMIN6	K9I9.3	At5g67470	NULL	AAQ99143	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856;501713011	0012417149|15256004|15994911	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH7	AtFORMIN7	F23H11.22	At1g59910	BT010460 	AAQ62880	"actin nucleating protein, contains FH1 (poly Pro) and FH2 domains -structure type B"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH8	AtFORMIN1	F20P5.14	At1g70140	NM_105682	NP_177171	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856;501679612;501716360;501713580	0012417149|15256004|15923338	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH9	NULL	K23F3.8	At5g48360	AK118458	BAC43066	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-M-M-S motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH10	NULL	F21O3.25	At3g07540	NULL	AAK91412	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-A-T-L-E motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class I formin family	AtFH11	NULL	F22F7.8	At3g05470	NM_111420	NP_187198	"actin nucleating protein, transmembrane, contains FH1 (poly Pro) and FH2 domains -structure type A"	NULL	"defined by the presence of the FH2 domain (Class I, G-N-R-M-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH12	NULL	F13A11.4	At1g42980	BX817649	NP_174997	"putative actin nucleating protein, contains FH2 domain -structure type C"	NULL	defined by the presence of a divergent Class II FH2 domain	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH13	NULL	MCK7.3	At5g58160	BK004099	DAA04457	"actin nucleating protein, contains PTEN-like, FH1 (poly Pro) and FH2 domains -structure type D"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-A-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH14	NULL	F5M6.18	At1g31810	BK004098	DAA04456	"actin nucleating protein, contains PTEN-like, FH1 (poly Pro) and FH2 domains -structure type D"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-A-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH15	NULL	MBK20.9	At5g07650	NM_120847	NP_196382	"actin nucleating protein, contains FH1 (poly Pro) and FH2 domains -structure type E"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-I-L-N/G-N-T-S-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH16	NULL	MBK20.23	At5g07770	NM_120859	NP_196394	"actin nucleating protein, contains FH1 (poly Pro) and FH2 domains -structure type B"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-T-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH17	NULL	F1D9.13	At3g32400	BK004094	DAA04452	"actin nucleating protein, contains FH2 domain -structure type C"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-A-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH18	NULL	F27C12.3	At2g25050	NM_128062	NP_180077	"actin nucleating protein, contains PTEN-like, FH1 (poly Pro) and FH2 domains -structure type D"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-A-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH19	NULL	MXM12.2	At5g07780	AK221526	BAD94830	"actin nucleating protein, contains FH1 (poly Pro) and FH2 domains -structure type E"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-I-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH20	NULL	MBK20.20	At5g07740	BK004102	DAA04460	"actin nucleating protein, contains PTEN-like, FH1 (poly Pro) and FH2 domains -structure type D"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-T-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FH2 proteins	Class II formin family	AtFH21	NULL	MBK20.22	At5g07760	NM_120858	NP_196393	"actin nucleating protein, contains FH1 (poly Pro), coiled-coil and and FH2 domains -structure type F"	NULL	"defined by the presence of the FH2 domain (Class II, G-N-I-L-N motif)"	3301	NULL	501682561;501712856	0012417149|15256004	http://kfrserver.natur.cuni.cz/genes/formins/	The plant formin-like (FH2) proteins
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH1	NULL	NULL	At1g50250	1483214	AAD50055	Arabidopsis thaliana chloroplast FtsH protease 	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH2	VAR II	NULL	At2g30950	7650137	AAF65925	VarII FtsH2 Z dependent protease	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH3	NULL	NULL	At2g29080	17380915	AAC33234	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH4	NULL	NULL	At2g26140	13507556	AAC31223	Arabidopsis thaliana At2g26140 mRNA sequence	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH5	VAR I 	NULL	At5g42270	22022512	BAB10200	VarI FtsH5 Z depandent protease	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH6	NULL	NULL	At5g15250	18417610	CAB89335	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH7	NULL	NULL	At3g47060	20466541	CAB61952	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH8	NULL	NULL	At1g06430	15028296	AAL31897	FtsH  AAA ATP and  Z dependent protease 	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH9	NULL	NULL	At5g58870	16648972	AAL24338	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501679453	11299370	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH10	NULL	NULL	At1g07510	8690012	AAF79577	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501711388	14630971	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH11	NULL	NULL	At5g53170	8689133	AAM13906	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501711388	14630971	NULL	NULL
FtsH: AAA ATP-dependent zinc metallopeptidase	Cell division protein FtsH-like protein family	FtsH12	NULL	NULL	At1g79560	30699431	AAD30220	putative  AAA-type  ATPase	NULL	NULL	1012567	NULL	501711388	14630971	NULL	NULL
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F19K6_15	AT1G52400	18404000	NM_104118	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T12J13.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T6J19.2 T27F4.2	AT1G66270	18408473	NM_105298	beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T1N24.7	AT5G26000	18420976	NM_122501	myrosinase precursor	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T1N24_18	AT5G25980	18420973	NM_122499	myrosinase TGG2	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	NULL	AT2G25630	18400891	NM_128122	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	MRC8.6	AT3G18080	18401764	NM_112690	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T2O9_120	AT3G60140	18411500	NM_115877	beta-glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	ATA27	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F16N3.11	AT1G47600	18401812	NM_103653	"thioglucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F17L22.220	AT4G21760	18415759	NM_118296	beta-glucosidase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F1N20.200	AT4G22100	18415838	NM_118331	glucosidase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F22D16.15	AT1G02900	18379028	NM_100171	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F26K9_170	AT3G62740	18412484	NM_116139	beta-glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F26K9_180	AT3G62750	18412487	NM_116140	beta-glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F3L24.13	AT3G09260	18398445	NM_111760	thioglucosidase 3D precursor	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F4I1.26	AT2G44450	18406539	NM_130008	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F4I1.27	AT2G44460	18406542	NM_130009	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F4I1.28	AT2G44470	18406544	NM_130010	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F4I1.29	AT2G44480	18406547	NM_130011	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F4I1.30	AT2G44490	18406550	NM_130012	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F5D21.16	AT1G51490	18403547	NM_104027	"cyanogenic beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F5D21.17	AT1G51470	18403538	NM_104025	"myrosinase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F5E6.16	AT3G06510	18397600	NM_111527	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F8K4.2	AT1G61810	18407340	NM_104863	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F8K4.3	AT1G61820	18407343	NM_104864	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	K15C23.9	AT5G44640	18422464	NM_123831	beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	K18P6.7	AT5G24540	18420805	NM_122362	beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	K18P6.8	AT5G24550	18420806	NM_122363	beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	K5J14.6	AT5G42260	18422191	NM_123591	beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	MHC9.5	AT3G21370	18402977	NM_113032	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	MLF18.1	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	MRC8.5	AT3G18070	18401759	NM_112689	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	MTG13.2	AT5G16580	18418015	NM_121664	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T13D8.15	AT1G60260	NULL	NULL	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T13D8.16	AT1G60270	18406689	NM_104717	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T1K7.7	AT1G26560	18395950	NM_102418	AAF88	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T27E11.60	AT4G27820	18417071	NM_118920	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T27E11.70	AT4G27830	18417072	NM_118921	putative beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T27F4.3	AT1G66280	NULL	NULL	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T2K10.15	AT1G60090	18406616	NM_104701	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T2O9.100	AT3G60120	18411486	NM_115875	beta-glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T2O9.110	AT3G60130	18411490	NM_115876	beta-glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	T4O12.15	AT1G75940	18410980	NM_106244	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 1	NULL	NULL	F7G19.12	AT1G09010	18390968	NM_100772	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 2	NULL	NULL	F7G19.12	AT1G09010	18390968	NM_100772	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 2	NULL	NULL	T14E10_10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	NULL	NULL	NULL	NULL	"beta-xylosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F12B17_90	AT5G10560	18416308	NM_121094	beta-xylosidase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F13I12.100	AT3G47050	18408350	NM_114572	beta-D-glucan exohydrolase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F13I12.50	AT3G47000	18408334	NM_114567	beta-D-glucan exohydrolase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F13I12.60	AT3G47010	18408335	NM_114568	beta-D-glucan exohydrolase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F13I12.90	AT3G47040	18408346	NM_114571	beta-D-glucan exohydrolase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F17I14_80	AT5G09730	18416071	NM_121010	beta-xylosidase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F26K9_140	AT3G62710	18412473	NM_116136	beta-D-glucan exohydrolase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	F28K19.27	AT1G78060	18411802	NM_106455	"xylosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	K7J8.3	AT5G49360	18423018	NM_124313	xylosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	MMB12.9	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 3	NULL	NULL	MUB3.9	AT5G64570	18424839	NM_125853	beta-xylosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	F26K10_200	AT4G28320	18417169	NM_118972	putative (1-4)-beta-mannan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	F5H14.35	AT2G20680	18399443	NM_127632	(1-4)-beta-mannan endohydrolaseT	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	F3F19.15	AT1G13130	18391476	NM_101183	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	F5E19_40	AT5G16700	18418053	NM_121675	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	K1F13.12	AT5G66460	18425075	NM_126044	"mannan endo-1,4-beta-mannosidase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	K3M16_70	AT5G17500	18418322	NM_121756	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	MQP15.4	AT3G30540	18406533	NM_113955	putative beta-mannan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	MTC11.2	AT3G26130	18404820	NM_113520	"cellulase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	MTC11.4	AT3G26140	NULL	NULL	"cellulase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	T20L15_200	AT5G01930	18413786	NM_120271	(1-4)-beta-mannan endohydrolase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	T6A9.1	AT1G02310	18378948	NM_100112	"(1-4)-beta-mannan endohydrolase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	T7M13.2	AT3G10900	18399046	NM_111927	putative (1-4)-beta-mannan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 5	NULL	NULL	T7M13.3	AT3G10890	18399041	NM_111926	putative (1-4)-beta-mannan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F5A18.11	AT1G70710	18409658	NM_105739	"endo-1,4-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F22D16.21	AT1G02800	18379008	NM_100159	"endo-1,4-beta-glucanase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	NULL	NULL	NULL	NULL	AAG21	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F15H21_9	AT1G64390	18408039	NM_105114	"endo-beta-1,4-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F10A5.13	AT1G75680	18410909	NM_106219	"endo-beta-1,4-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F16B22.5	AT2G44560	NULL	NULL	putative glucanase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F16B22.6	AT2G44570	18406571	NM_130021	putative glucanase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F17A8.90	AT4G09740	18413257	NM_117042	cellulase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F19G10.16	AT1G22880	18395171	NM_102134	"putative endo-1,4-beta-D-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F19H22.100	AT4G39000	18420357	NM_120060	"putative endo-1,4-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F19H22.110	AT4G39010	18420358	NM_120061	"putative endo-1,4-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F19H22.90	AT4G38990	18420355	NM_120059	"putative endo-1,4-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F26A9.24	NULL	NULL	NULL	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F27J15.28;F27K7.5	AT1G48930	18402424	NM_103786	"endo-beta-1,4-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F2P3.1	AT4G11050	18413416	NM_117175	putative glucanase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F4I1.36;F16B22.3	AT2G44540	18406564	NM_130018	putative cellulase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F4I1.37;F16B22.4	AT2G44550	NULL	NULL	putative glucanase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F5I14.14	AT1G65610	18408322	NM_105234	"endo-1,4-beta-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F6F9	AT1G19940	18394803	NM_101849	"endo-beta-1,4-D-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	F9D16.30	AT4G23560	18416172	NM_118487	putative cellulase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	T21L14.7	AT2G32990	18403148	NM_128859	putative glucanse	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	T22A6.90	AT4G24260	18416312	NM_118559	"endo-1,4-beta-glucanase like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	T26J12.2;F26F24.6	AT1G23210	18395215	NM_102170	Hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	T28A8_150	AT3G43860	18407658	NM_114254	cellulase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 9	NULL	NULL	T2H3.5	AT4G02290	18411904	NM_116462	"putative endo-1,4-beta glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F17I5.10	AT4G33820	NULL	NULL	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F17I5.20	AT4G33830	18418299	NM_119540	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F17I5.30	AT4G33840	18418302	NM_119541	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F17I5.40	AT4G33850	18418306	NM_119542	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F17I5.50	AT4G33860	18418307	NM_119543	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F20M13.210	AT4G38650	18420280	NM_120026	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F22I13.70	AT4G38300	18420214	NM_119992	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F9M13.1	AT4G08160	18413086	NM_116885	putative xylan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	F19C14.2;F9K23.10	AT1G58370	18406267	NM_104617	"xylan endohydrolase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	T16L1.300	AT4G33810	18418297	NM_119539	beta-xylan endohydrolase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	T27I1.7	AT1G10050	18391103	NM_100879	putative xylan endohydrolase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 10	NULL	NULL	T6B13.7	AT2G14690	18397599	NM_127033	"1,4-beta-xylan endohydrolase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	F17C15_70	AT5G03650	18414303	NM_120446	"1,4-alpha-glucan branching enzyme protein soform SBE2.2 precursor"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	F23J3_50	AT4G09020	18413183	NM_116971	isoamylase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	F13M23.140	AT4G25000	18416464	NM_118632	alpha-amylase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	F15K9.9	AT1G03310	18379082	NM_100213	putative isoamylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	MQC12.23	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	T17F3.14	AT1G69830	18409377	NM_105651	putative alpha-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	T23E18.6	AT1G76130	18411029	NM_106262	"alpha-amylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 13	NULL	NULL	T28M21.9	AT2G39930	18405207	NM_129551	putative isoamylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	dl3650c	AT4G15210	18414403	NM_117609	beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	dl4575c	AT4G17090	18414812	NM_117813	putative beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	F14O13_11	AT3G23920	18403963	NM_113297	"beta-amylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	F6N23.1	AT4G00490	18411346	NM_116273	putative beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	F4I18.14	AT2G45880	18406912	NM_130151	putative beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	K9E15.8	AT5G45300	18422535	NM_123898	beta-amylase-like	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	MDF20.14	AT5G55700	18423777	NM_124952	beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 14	NULL	NULL	T32F6.19	AT2G32290	18402926	NM_128788	putative beta-amylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F17I23_380	AT4G30280	18417563	NM_119174	"xyloglucan endo-1,4-beta-D-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F17I23_370	AT4G30290	18417565	NM_119175	"xyloglucan endo-1,4-beta-D-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F13C5.160	AT4G18990	18415216	NM_118017	xyloglucan endo-transglycosylase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F16A16.40	AT4G28850	18417280	NM_119029	xyloglucan endotransglycosylase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F25G13.170	AT4G13080	18413922	NM_117377	endoxyloglucan transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F25G13.180	AT4G13090	18413924	NM_117378	endoxyloglucan transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F4C21.14	AT4G03210	18412189	NM_116559	putative xyloglucan endotransglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F6H11.140	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F9N11.120	AT4G30270	18417562	NM_119173	"xyloglucan endo-1,4-beta-D-glucanase precursor"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	K3G3.7	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MDN11.15	AT5G48070	18422868	NM_124181	"xyloglucan endo-1,4-beta-D-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MSF3.18	AT2G18800	18398850	NM_127436	putative xyloglucan endo-transglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MUA2.10	AT5G57530	18423989	NM_125134	xyloglucan endotransglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MUA2.11	AT5G57540	18423990	NM_125135	xyloglucan endotransglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MYM9.7	AT3G23730	18403866	NM_113277	"xyloglucan endotransglycosylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T10O24.17	AT1G10550	18391172	NM_100930	putative endoxyloglucan transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T1J8.5	AT2G36870	18404259	NM_129242	putative xyloglucan endo-transglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T23J18.21	NULL	NULL	NULL	"endo-xyloglucan transferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T28I19.80	AT4G37800	18420121	NM_119942	endo-xyloglucan transferase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T6B13.14	AT2G14620	18397582	NM_127026	putative endoxyloglucan glycosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T8F5.9	AT1G65310	18408252	NM_105205	"xyloglucan endotransglycosylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	T8P19.90	AT3G48580	NULL	NULL	endoxyloglucan transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F3C3.5	AT1G32170	18398307	NM_102950	"endoxyloglucan transferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F14D17_60	AT3G44990	18407891	NM_114368	xyloglucan endo-transglycosylase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MUA2_13	AT5G57560	18423993	NM_125137	TCH4 protein (gb|AAA92363.1)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F9N11.120	AT4G30270	18417562	NM_119173	"xyloglucan endo-1,4-beta-D-glucanase precursor"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F10B6_29	AT1G14720	18394154	NM_101341	"xyloglucan endo-transglycosylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	MUA2.12	AT5G57550	18423991	NM_125136	endoxyloglucan transferase (gb|AAD45127.1)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F14M19.90	AT4G25810	18416623	NM_118713	"xyloglucan endo-1,4-beta-D-glucanase (XTR-6)"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	dl3105c	AT4G14130	18414149	NM_117490	xyloglucan endotransglycosylase-related protein XTR-7	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 16	NULL	NULL	F14M19.100	AT4G25820	18416625	NM_118714	"putative xyloglucan endo-1,4-beta-D-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	dl3080c	AT4G14080	18414134	NM_117483	A6 anther-specific protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F28O9.110	AT3G57260	18410679	NM_115586	"beta-1,3-glucanase 2 (BG2) (PR-2)"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F28O9.90	AT3G57240	18410673	NM_115584	"beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	dl4170c	AT4G16260	18414625	NM_117722	"beta-1,3-glucanase class I precursor"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F6E21_60	AT4G31140	18417745	NM_119264	"1,3-beta-glucanase - like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T25M19.1	AT2G05790	18396163	NM_126593	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	dl4625w	AT4G17180	18414832	NM_117822	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F17A13_180	AT4G29360	18417382	NM_119081	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F10A12.18	AT2G27500	18401443	NM_128310	"putative beta-1,3-glucanaseT"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F10M23.170	AT4G26830	18416862	NM_118817	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F12A12.90	AT3G46570	18408229	NM_114524	glucosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F12F1.33	NULL	NULL	NULL	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F13O11.7	AT1G64760	18408124	NM_105150	"beta-1,3-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F15G16.200	AT3G61810	18412140	NM_116046	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F16F14.27	AT2G16230	18398058	NM_127180	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F17A14.1	AT2G39640	18405117	NM_129520	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F1I16_190	AT3G55780	18410354	NM_115436	"beta-1,3-glucanase - like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F21O3.3	NULL	NULL	NULL	putative glucan endo-1-3-beta-glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F27F23.24	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F28O9.120	AT3G57270	18410683	NM_115587	"glucan endo-1,3-beta-D-glucosidase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F3P11.4	AT2G19440	18399040	NM_127502	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	F9L11.6	AT1G32860	18398624	NM_103020	"beta-1,3-glucanase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	K21L19.9	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	K7M2.10	AT3G24350	18404158	NM_113342	syntaxin-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MCO15.13	AT5G55180	18423718	NM_124900	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MIK19.3	AT5G56590	18423880	NM_125042	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MJB21.9	AT5G42720	18422242	NM_123636	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MJC20.21	AT5G42100	18422174	NM_123575	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MQJ2.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MRG7.18	AT5G18220	18418547	NM_121827	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MRP15.22	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MSJ11.20	AT3G15800	18400905	NM_112450	"putative beta-1,3-glucanase precursor"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MXK3.1	AT5G64790	18424866	NM_125875	"beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	MYM9.11	AT3G23770	18403881	NM_113281	"beta-1,3-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T11I18.12	AT3G04010	18396737	NM_111272	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T1B9.1	AT3G07070	18397824	NM_111587	putative protein kinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T1P2.13	AT1G30080	18397347	NM_102747	"beta-1,3-glucanase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T22E16.90	AT3G55430	18410277	NM_115401	"beta-1,3-glucanase - like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T32E8.11	AT1G77780	18411689	NM_106427	"putative endo-1,3-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T32E8.12	AT1G77790	18411694	NM_106428	"putative endo-1,3-beta-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T4L20.60	AT4G34480	18418458	NM_119613	putative protein (fragment)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T6J19.7	AT1G66250	18408468	NM_105296	"beta-1,3-glucanase precursor, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T8O11.20	AT2G01630	18379266	NM_126224	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T9A21.190	AT4G18340	18415068	NM_117944	"beta-1,3-glucanase-like protein"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T9J22.27	AT2G26600	18401186	NM_128217	"putative beta-1,3-glucanase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 17	NULL	NULL	T9L6.8;T16O9.3	AT1G33220	18398770	NM_103050	"beta-1,3-glucanase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	MZF18.2	AT5G24090	18420748	NM_122314	acidic endochitinase (dbj|BAA21861.1)A	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.100	AT4G19740	18415370	NM_118094	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.110	AT4G19750	18415372	NM_118095	chitinase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.120	AT4G19760	18415373	NM_118096	chitinase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.130	AT4G19770	18415379	NM_118097	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.160	AT4G19800	18415384	NM_118100	chitinase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.170	AT4G19810	18415385	NM_118101	putative chitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.180	AT4G19820	18415387	NM_118102	putative chitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.80	AT4G19720	18415365	NM_118092	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	T16H5.90	AT4G19730	18415366	NM_118093	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 18	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	K14A17.4	AT3G16920	18401302	NM_112568	"basic chitinase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	T2E22.18	AT3G12500	18399631	NM_112085	basic chitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	T12E18_110	AT3G54420	18410065	NM_115302	class IV chitinase (CHIV)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.27	AT2G43620	18406292	NM_129924	putative endochitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.28	AT2G43610	18406288	NM_129923	putative endochitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.29;T01O24.34	AT2G43600	18406286	NM_129922	putative endochitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.30;T01O24.33	AT2G43590	18406283	NM_129921	putative endochitinaseT	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.31;T01O24.32	AT2G43580	18406281	NM_129920	putative endochitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F18O19.32;T01O24.31	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F1P2.90	AT3G47540	18408444	NM_114622	endochitinase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	F25P12.88	AT1G56680	18405933	NM_104545	"chitinase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	T15B16.5	AT4G01700	18411706	NM_116400	putative chitinase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	T20M3.12	AT1G05850	18390580	NM_100466	"class I chitinase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	T6A9.5	AT1G02220	18378934	NM_100103	"NAM (no apical meristem)-like protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 19	NULL	NULL	 	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 20	NULL	NULL	F3F20.4	AT1G05590	18390546	NM_100439	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 20	NULL	NULL	F5I14.13	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 20	NULL	NULL	T26I12.140	AT3G55260	18410236	NM_115384	beta-N-acetylhexosaminidase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 27	NULL	NULL	F3F20.4	AT1G05590	18390546	NM_100439	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 27	NULL	NULL	F5I14.13	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 27	NULL	NULL	T26I12.140	AT3G55260	18410236	NM_115384	beta-N-acetylhexosaminidase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 27	NULL	NULL	F18O21_270	AT3G56310	18410472	NM_115489	alpha-galactosidase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F22D16.22	AT1G02850	18379019	NM_100166	"beta-glucosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17M5.200	AT4G33440	18418212	NM_119498	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F20B24_8	AT1G10640	18391184	NM_100940	"polygalacturonase PG1, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F20B24.8	AT2G15450	18397821	NM_127105	"polygalacturonase PG1, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F26H6.2	AT2G15460	18397826	NM_127106	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F16G20.200	AT4G23500	18416162	NM_118481	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17A17.16	AT3G07820	18398064	NM_111661	polygalacturonase (PGA3)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17A17.17	AT3G07830	18398068	NM_111662	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17A17.18	AT3G07840	18398071	NM_111663	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17A17.19	AT3G07850	18398074	NM_111664	exopolygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F17A17.31	AT3G07970	18398115	NM_111676	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18A5.150	AT4G13760	18414072	NM_117450	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18B13.22	AT1G80140	18412673	NM_106663	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18B13.25	AT1G80170	18412684	NM_106666	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18O19.2	AT2G43870	18406376	NM_129949	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18O19.3	AT2G43860	18406374	NM_129948	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F18P9_110	AT3G42950	18407375	NM_114163	polygalacturonase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F20D23.15	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F21D18.18	AT1G48260	18402118	NM_103723	"serine/threonine kinase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F24G16.120	AT3G59850	18411356	NM_115848	polygalacturonase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F24J13.7	AT1G70500	18409598	NM_105718	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F25I18.10	AT2G33160	18403202	NM_128875	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F25P12.85	AT1G56710	18405943	NM_104548	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F28C11.10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F28C11.9	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F2A19.90	AT3G61490	18412024	NM_116014	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F2H10.10	AT1G43100	18400821	NM_103465	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F2H10.11	AT1G43090	18400813	NM_103464	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F2H10.12	AT1G43080	18400809	NM_103463	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F2K15.30	AT3G49170	18408789	NM_114776	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F3F20.10	AT1G05650	18390553	NM_100445	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F3F20.11	AT1G05660	18390554	NM_100446	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F3F9.9	AT1G78410	18411944	NM_106488	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F5I14.10	AT1G65570	18408316	NM_105231	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F5O8.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F6E13.1	AT2G43880	18406380	NM_129950	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F6E13.2	AT2G43890	NULL	NULL	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F8A5.12	AT1G60590	18406802	NM_104742	"polygalacturonase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F8B4.70	AT4G32370	18417993	NM_119389	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F8B4.80	AT4G32380	18417994	NM_119390	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F8D20.180	AT4G35670	18419564	NM_119732	putative polygalacturonaseT	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	F9D16.290	AT4G23820	18416217	NM_118513	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	K20I9.8	AT3G16855	18401271	NM_112560	"ARR1 protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MFE16.14	NULL	NULL	NULL	putative non-LTR retroelement reverse transcriptase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MIF21.3	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MKP11.5	AT5G17200	18418213	NM_121726	polygalacturonase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MSJ11.12	AT3G15720	18400875	NM_112442	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MYH19.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T07M07.19	AT2G40310	18405340	NM_129589	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T11A7.5	AT2G41850	18405821	NM_129749	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T14P4.18	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T15N1_140	AT5G14650	18417434	NM_121469	polygalacturonase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T17J13.70	AT3G62110	18412252	NM_116076	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T19K24.5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T19K24.6;K23L20.18	AT5G44830	18422487	NM_123851	polygalacturonase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T29E15.10	AT2G23900	18400403	NM_127951	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T29M8.4	AT1G19170	18394704	NM_101775	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T2J13.210	AT3G48950	18408740	NM_114754	endo-polygalacturonase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T7B11.15	AT4G01890	18411764	NM_116419	endo-polygalacturonase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T9A21.20	AT4G18180	18415036	NM_117928	polygalacturonase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	T9J22.29	AT2G26620	18401192	NM_128219	putative polygalacturonase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 28	NULL	NULL	MDC16.18	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 31	NULL	NULL	T22P22_110	AT5G11720	18416654	NM_121210	alpha-glucosidase 1	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 31	NULL	NULL	F24J5.20	AT1G68560	NULL	NULL	alpha-xylosidase precursor	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 31	NULL	NULL	F16L2_150	AT3G45940	18408102	NM_114463	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 31	NULL	NULL	MDB19.14	AT3G23650	18403836	NM_113269	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 31	NULL	NULL	MGI19.4	AT5G63840	18424754	NM_125779	glucosidase II alpha subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	F22O6.20	AT3G52600	18409641	NM_115120	beta-fructofuranosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	MMM17.24	AT3G13782	18400165	NM_112230	"nucleosome assembly protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	T28K15.3	AT1G12240	18391367	NM_101096	"beta-fructosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	F2H17.20	AT2G36190	18404066	NM_129177	putative beta-fructofuranosidase (invertase)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	F14F18_90	AT5G11920	18416710	NM_121230	fructosidase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	F23N19.3	AT1G62660	18407629	NM_104943	beta-fructosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	MMM17.23	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	T3P18.21	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	T7N22.6	AT1G55120	18405221	NM_104385	"beta-fructofuranosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 32	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F8J2_10	AT3G52840	18409709	NM_115144	beta-galactosidase precursor - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	MGI19.1	AT5G63810	18424751	NM_125776	beta-galactosidase (emb|CAB64746.1)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F20B18.250	AT4G26140	18416687	NM_118747	putative beta-galactosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	NULL	AT2G16730	18398196	NM_127225	putative beta-galactosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	C7A10.1000	AT4G36360	18419820	NM_119799	beta-galactosidase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	 	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	MBK5.28	AT5G63800	18424749	NM_125775	beta-galactosidase (emb|CAB64742.1)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	T17D12.3	AT2G28470	18401754	NM_128407	putative beta-galactosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F20M13.150	AT4G38590	18420269	NM_120020	galactosidase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F23E13.200	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F24L7.5	AT2G32810	18403089	NM_128841	putative beta-galactosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F27F5.20	AT1G45130	18401490	NM_103587	"beta-galactosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F27M3_5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	F3N23.19	AT1G72990	18410233	NM_105957	"beta-galactosidase (BGAL), putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	M4E13.70	AT4G35010	18418557	NM_119667	beta-galactosidase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	MMM17.17	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 35	NULL	NULL	T5M16.1	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 36	NULL	NULL	T7B11.23	AT4G01970	18411794	NM_116428	putative raffinose synthase or seed imbibition protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 36	NULL	NULL	A_IG002N01.5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 36	NULL	NULL	F20N2.14	AT1G55810	18405546	NM_104458	"uracil phosphoribosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 36	NULL	NULL	MPO12.13	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 36	NULL	NULL	T8H10.120	AT3G57520	18410740	NM_115612	imbibition protein homolog	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 37	NULL	NULL	T19F6.15	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 37	NULL	NULL	T19F6.30	AT4G24040	18416262	NM_118536	trehalase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 37	NULL	NULL	 	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 38	NULL	NULL	MLJ15.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 38	NULL	NULL	F2G14_70	AT5G14950	18417525	NM_121499	alpha-mannosidase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 38	NULL	NULL	K2A18.23	AT5G66150	18425039	NM_126013	alpha-mannosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 38	NULL	NULL	MAC12.5	AT5G13980	18417254	NM_121401	alpha-mannosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 43	NULL	NULL	K9I9.10	AT5G67540	18425201	NM_126154	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 43	NULL	NULL	T16K5.230	AT3G49880	18408969	NM_114848	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 47	NULL	NULL	F5D21.1;F19C24.18	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 47	NULL	NULL	MQD19.4	AT5G43710	18422360	NM_123737	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 47	NULL	NULL	MSA6.20	AT3G21160	18402906	NM_113010	"mannosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 47	NULL	NULL	T17H3.2	AT1G27520	18396372	NM_102516	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 47	NULL	NULL	T1P2.10	AT1G30000	18397312	NM_102740	"endoplasmic reticulum alpha-mannosidase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 51	NULL	NULL	T7M13_18	AT3G10740	18398980	NM_111911	putative alpha-L-arabinofuranosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 51	NULL	NULL	T1N24.13	AT5G26120	18420991	NM_122513	arabinosidase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 63	NULL	NULL	F3I6.26	AT1G24320	18395448	NM_102278	putative glucosidase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 63	NULL	NULL	F12B7.4;T1F15.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 77	NULL	NULL	MXK3.9	AT5G64860	18424879	NM_125884	4-alpha-glucanotransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 77	NULL	NULL	T20B5.4	AT2G40840	18405519	NM_129647	4-alpha-glucanotransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 79	NULL	NULL	F13G24.30	AT5G07830	18415623	NM_120865	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 79	NULL	NULL	MFB13.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 79	NULL	NULL	MGG23.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 81	NULL	NULL	F15H18.17	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 81	NULL	NULL	F1N13_10	AT5G15870	18417815	NM_121592	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 85	NULL	NULL	F9F8.14	AT3G11040	18399093	NM_111941	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycoside Hydrolase Gene Families	Glycoside Hydrolase Family 85	NULL	NULL	K18I23.27	AT5G05460	18414893	NM_120628	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmesGlycosyltransferase Gene Families
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MJP23.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K2I5.5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T15G18_80	AT4G09500	18413232	NM_117018	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	NULL	AT4G14100	18414135	NM_117484	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3680c	AT4G15270	18414416	NM_117615	UTP-glucose glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T29A15_50	AT4G27560	18417015	NM_118891	UDP rhamnose-anthocyanidin-3-glucoside rhamnosyltransferase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F9O13.3	AT2G15480	18397832	NM_127108	UDP rhamnose-anthocyanidin-3-glucoside rhamnosyltransferase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F9O13.4	AT2G15490	18397835	NM_127109	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12A24.7	AT2G16890	18398243	NM_127242	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T20K9.14	AT2G22930	18400123	NM_127858	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27A16.19	AT2G29710	18402123	NM_128525	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27A16.17	AT2G29730	18402132	NM_128527	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27A16.16	AT2G29740	18402134	NM_128528	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27A16.15	AT2G29750	18402137	NM_128529	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F20M17.21	AT2G31750	18402752	NM_128733	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F20M17.17	AT2G31790	18402771	NM_128737	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T1J8.15	AT2G36970	18404287	NM_129253	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSD21_6	AT3G21750	18403138	NM_113070	putative UDP-glucose glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSD21_7	AT3G21760	18403142	NM_113071	putative UDP-glucose glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2N1_15	AT4G01070	18411529	NM_116337	putative flavonol glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	C7A10_590	AT4G36770	18419904	NM_119841	glucosyltransferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3675w	AT4G15260	18414412	NM_117614	glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3685w	AT4G15280	18414418	NM_117616	UTP-glucose glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3780c	AT4G15480	18414459	NM_117638	indole-3-acetate beta-glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3785c	AT4G15490	18414461	NM_117639	indole-3-acetate beta-glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3790c	AT4G15500	18414463	NM_117640	indole-3-acetate beta-glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	dl3815c	AT4G15550	18414477	NM_117646	glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F10K1.3	AT1G07260	18390746	NM_100600	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F10K1.4	AT1G07250	18390744	NM_100599	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F10K1.5	AT1G07240	18390743	NM_100598	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F11B9.23 F24K9	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F11F12.10 F17J6.10	AT1G50580	18403127	NM_103940	putative indole-3-acetate beta-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F11M15.8	AT1G51210	18403413	NM_103999	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12A12.170	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12A12.180	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12A12.190	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12A12.200 T6H20.290	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12E4_260	AT5G03490	18414246	NM_120429	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F12K8.26	AT1G22400	18395114	NM_102089	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.15	AT2G36750	18404215	NM_129230	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.16	AT2G36760	18404218	NM_129231	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.17	AT2G36770	18404225	NM_129232	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.18	AT2G36780	18404230	NM_129233	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.19	AT2G36790	18404232	NM_129234	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13K3.20	AT2G36800	18404237	NM_129235	putative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13O11.21	AT1G64910	18408157	NM_105165	"rhamnosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F13O11.22	AT1G64920	18408160	NM_105166	"anthocyanidin-3-glucoside rhamnosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F14N23.30	AT1G10400	18391153	NM_100915	puative glucosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F16F17.1	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F16F17.6	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F18B3.20	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F18O19.5	AT2G43840	18406363	NM_129946	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F18O19.7	AT2G43820	18406358	NM_129944	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F1C9.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F1I16_110	AT3G55700	NULL	NULL	glucuronosyl transferase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F1I16_120	AT3G55710	18410340	NM_115429	glucuronosyl transferase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F24D13.13	AT2G28080	18401623	NM_128367	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F24H14.8	AT2G18570	18398780	NM_127413	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F24H14.9	AT2G18560	18398778	NM_127412	putative flavonol 3-O-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F26G16.15	AT1G30530	18397551	NM_102790	"UDP glucose:flavonoid 3-o-glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F28A23.110	AT4G34130	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2K13_180	AT5G17030	18418163	NM_121709	UDP glucose:flavonoid 3-o-glucosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2K13_190	AT5G17040	18418165	NM_121710	UDP glucose:flavonoid 3-o-glucosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2K13_200	AT5G17050	18418168	NM_121711	UDP glucose:flavonoid 3-o-glucosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2O15.25	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2O15.26	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F2P9.25	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F3F20.12	AT1G05670	18390555	NM_100447	putative indole-3-acetate beta-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F3F20.13	AT1G05680	18390556	NM_100448	putative indole-3-acetate beta-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F3F9.19	AT1G78280	18411895	NM_106477	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F3I6.2	AT1G24100	18395385	NM_102256	putative indole-3-acetate beta-glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F6F3.19	AT1G01390	18378834	NM_100021	"flavonol 3-o-glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F6F3.22	AT1G01420	18378837	NM_100024	"flavonol 3-o-glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F9D12.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K18J17.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K18J17.3	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K18J17.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K18J17.5	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K18L3.15	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K19P17.16	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	K19P17.18	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MDC8.15	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MJJ3.28	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MMP21.3	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSD21.10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSD21.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSD21.9	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MSN2.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MTO24.16	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	F17A9.17	AT3G07020	18397806	NM_111582	UDP-glucose:sterol glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T10P12.7	AT1G43620	18400961	NM_103487	"sterol glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15	AT1G22380	18395113	NM_102088	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15.2	AT1G22370	18395111	NM_102087	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15.2	AT1G22370	18395111	NM_102087	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15.5	AT1G22340	18395109	NM_102085	"UDP-glucose glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T20D16.11	AT2G23260	18400221	NM_127890	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T20D16.12	AT2G23250	18400216	NM_127889	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T20D16.16	AT2G23210	18400199	NM_127885	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T21E18.5	AT1G06000	18390598	NM_100480	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T24H18_60	AT5G12890	18416892	NM_121292	glucosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T25N20.18	AT1G05530	18390536	NM_100432	"UDP-glucose:indole-3-acetate beta-D-glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27E13.11	AT2G30150	18402275	NM_128570	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T27E13.12	AT2G30140	18402273	NM_128569	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T29A15.60	AT4G27570	18417017	NM_118892	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T4D2.80	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T4D2.90	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T6H20.250	AT3G46720	18408262	NM_114539	glucuronosyl transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T6H20.270	AT3G46700	18408258	NM_114537	glucuronosyl transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T6H20.280	AT3G46690	18408257	NM_114536	glucuronosyl transferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T9I22.3	AT2G22590	18400021	NM_127824	putative anthocyanidin-3-glucoside rhamnosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T9J22.15	AT2G26480	18401142	NM_128205	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T9L3_160	AT5G14860	18417494	NM_121490	glucosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	NULL	AT4G34130	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T16E15.3	AT1G22360	18395110	NM_102086	UDP-glucose glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	MIL23.13	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 1	NULL	NULL	T25N20_20	AT1G05560	18390539	NM_100435	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	K2A11.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F28A21.190	AT4G18780	18415169	NM_117994	cellulose synthase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F28A21.190	AT4G18780	18415169	NM_117994	cellulose synthase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T22F8.250	AT4G39350	18420432	NM_120095	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	dl3690c	AT4G15290	18414421	NM_117617	cellulose synthase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	dl3705c	AT4G15320	18414426	NM_117620	cellulose synthase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F28M20.220	AT4G31590	18417836	NM_119308	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F25P17.7	AT2G24630	18400594	NM_128024	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F13B15.20	AT2G25540	18400859	NM_128111	putative cellulose synthase catalytic subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	MVP7_7	AT5G64740	18424860	NM_125870	cellulose synthase catalytic subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	dl4320w	AT4G16590	18414700	NM_117760	cellulose synthase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F14J16.9	AT1G55850	18405571	NM_104462	"cellulose synthase catalytic subunit, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F17C15_180;MED24.4	AT5G03760	18414339	NM_120457	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F1K3.3	AT4G07960	18413062	NM_116866	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F20D10.310	AT4G38190	18420190	NM_119980	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F21O3.4	AT3G07330	18397915	NM_111612	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F22D16.26	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F25I18.16	AT2G33100	18403188	NM_128870	putative cellulose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F27K19_180	AT3G56000	18410402	NM_115458	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F28C11.11	AT1G23480	18395246	NM_102197	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F2D10.6	AT1G20570	18394878	NM_101907	"dolichol-phosphate-mannose synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F2K13_60	AT5G16910	18418126	NM_121697	cellulose synthase catalytic subunit -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F3C3.4	AT1G32180	18398311	NM_102951	"cellulose synthase catalytic subunit, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F5M15.10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F5O8.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F7D8.9	AT2G21770	18399787	NM_127746	putative cellulose synthase catalytic subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	F8B4.110	AT4G32410	18418001	NM_119393	cellulose synthase catalytic subunit (RSW1)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	MDJ22.16	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	MIG10.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	MRH10.14	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	MYH9.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T19F6.17	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T19F6.18	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T19F6.19	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T20F21.16	AT2G35650	18403913	NM_129120	putative glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T21H19_110	AT5G16190	18417903	NM_121624	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T23E23.23	AT1G24070	18395380	NM_102254	"glucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T26B15.10	AT2G32540	18403002	NM_128813	putative cellulose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T26B15.17	AT2G32610	18403025	NM_128820	putative cellulose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T26B15.18	AT2G32620	18403029	NM_128821	putative cellulose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T26B15.9	AT2G32530	18403001	NM_128812	putative cellulose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T32A16.160	AT4G23990	18416251	NM_118531	cellulose synthase catalytic subunit - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T32A16.170	AT4G24000	18416252	NM_118532	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T32A16.180	AT4G24010	18416255	NM_118533	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T9E8.150	AT4G13410	18414002	NM_117415	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T17B22.26	AT3G03050	18396425	NM_111175	putative cellulose synthase catalytic subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 2	NULL	NULL	T17B22.26	AT3G03050	18396425	NM_111175	putative cellulose synthase catalytic subunit	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	T19F11.7	AT3G11670	18399311	NM_111999	digalactosyldiacylglycerol synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F6N23.24	AT4G00550	18411369	NM_116279	predicted protein of unknown function	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F13M14.8(F18K10.25)	AT3G10630	18398941	NM_111899	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F13M7.9	AT1G04920	18390454	NM_100370	"sucrose-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F1B16.5	AT1G75420	18410851	NM_106196	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F24J7.20	AT4G19460	18415318	NM_118066	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F28M11.40	AT4G10120	18413300	NM_117080	sucrose-phosphate synthase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F3N23.36 (T18K17.18)	AT1G73160	18410280	NM_105974	putative glycosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F5O24_170	AT5G20280	18420165	NM_122035	sucrose-phosphate synthase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F6D8.36 (F19K6.13)	AT1G52420	18404008	NM_104120	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F6F9.24	AT1G19710	18394777	NM_101827	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F7J8.200	AT5G01220	18412796	NM_120200	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F7K15_40	AT3G43190	18407471	NM_114187	sucrose synthase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	F9K20.16	AT1G78800	18412114	NM_106527	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	K18B18.7	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	K21P3.6	AT5G49190	18422999	NM_124296	sucrose synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	MJG14.25	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	MVC8.8	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	T07M07.7	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	T14D3.40	AT3G45100	18407912	NM_114379	n-acetylglucosaminyl-phosphatidylinositol-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	T2H3.8	AT4G02280	18411898	NM_116461	putative sucrose synthetase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 4	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 5	NULL	NULL	F25C20.13	AT1G11720	18391307	NM_101044	putative glycogen synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 5	NULL	NULL	F9L11.8	AT1G32900	18398642	NM_103023	"starch synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 5	NULL	NULL	T4P13.13	AT3G01180	18395733	NM_110984	putative glycogen synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 5	NULL	NULL	T9A21.90	AT4G18240	18415048	NM_117934	starch synthase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 5	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F5H14.22	AT2G20810	18399483	NM_127647	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T6A23.15	AT2G38650	18404823	NM_129422	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	dl4325w	AT4G16600	18414703	NM_117761	glucosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F11A12.4	AT3G02350	18396158	NM_111102	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F13A10.1	AT2G46480	18407085	NM_130212	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F14J9.1	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F17M5.90	AT4G33330	18418190	NM_119487	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F18O14.2	AT1G19300	18394718	NM_101787	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F20P5.18	AT1G70090	18409444	NM_105677	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F22I13.40	AT4G38270	18420208	NM_119989	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F25P12.95	AT1G56600	18405897	NM_104537	"water stress-induced protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F26K9_90	AT3G62660	18412453	NM_116131	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F28L1.20	AT3G06260	18397517	NM_111501	putative glycosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F3I6.10	AT1G24170	18395403	NM_102263	putative glycosyl transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F4H5.13	AT1G06780	18390687	NM_100555	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F7G19.14	AT1G08990	18390965	NM_100770	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	K5F14.3	AT5G54690	18423658	NM_124850	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	MCA23.10	AT5G47780	18422836	NM_124152	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	MJL12.8	AT3G25140	18404432	NM_113418	"glycosyl transferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	MRO11.17	AT5G23790	18420716	NM_122284	galactinol synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	MVE11.2	AT3G18660	18401960	NM_112752	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	MZF16.15	NULL	NULL	NULL	pseudogene	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T10M13.14	AT4G02130	18411845	NM_116445	pseudogene	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T14N5.1	AT1G77130	18411373	NM_106363	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T14P4.1	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T20F21.10	AT2G35710	18403929	NM_129126	putative glycogenin	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T20K12.30	AT3G61130	18411855	NM_115977	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T20K14_80	AT5G15470	18417684	NM_121551	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T20N10_140	AT3G58790	18411032	NM_115741	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T24C10.6 (F14C21.11)	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T25K17.60	AT4G26250	18416712	NM_118758	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T3A5.140 (F18B3.40)	AT3G50760	18409176	NM_114936	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T4P13.28	AT3G01040	18395686	NM_110969	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T6J4.1	AT1G13250	18391492	NM_101196	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T08I13.2	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	F8A5.2	AT1G60470	18406770	NM_104734	"galactinol synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 8	NULL	NULL	T13D8.32	AT1G60450	18406759	NM_104732	"galactinol synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 10	NULL	NULL	F14J22.8	AT1G49710	18402753	NM_103858	"fucosyltransferase c3 protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 10	NULL	NULL	F17M19.14	AT1G71990	18409962	NM_105857	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 10	NULL	NULL	MVI11.20	AT3G19280	18402182	NM_112815	"fucosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 13	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 13	NULL	NULL	F20D10.360	AT4G38240	18420201	NM_119986	glycosyltransferase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F13M22.8	AT2G37580	18404465	NM_129313	putative RING zinc finger protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	T12J13_3	AT3G03690	18396630	NM_111240	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F14O13.23	AT3G24040	18404013	NM_113309	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F21B7.14	AT1G03520	18379107	NM_100234	putative glycosylation enzyme	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F23N20.6	AT1G71070	18409753	NM_105776	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F27G19.80	AT4G27480	18417001	NM_118883	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F2G14_170	AT5G15050	18417551	NM_121509	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F4C21.27	AT4G03340	18412229	NM_116572	putative glycosylation enzyme	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	F8L10.4	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	K7L4.15	AT3G15350	18400724	NM_112398	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 14	NULL	NULL	MYH19.19	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	F15O11.7	AT2G13290	18397221	NM_126919	putative N-acetylglucosaminyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	F18O22_270	AT5G14480	18417391	NM_121452	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	F3F19.2	AT1G12990	18391463	NM_101170	"putative beta-1,4-N-acetylglucosaminyltransferase"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	F4P13.16	AT3G01620	18395884	NM_111028	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	MMJ24.9	AT3G27540	18405427	NM_113670	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 17	NULL	NULL	T23K23.27	AT1G67880	18408887	NM_105458	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 19	NULL	NULL	T1O3.3	AT2G04560	18395784	NM_126487	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	dl4920w	AT4G17770	18414959	NM_117886	trehalose-6-phosphate synthase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T29A15_40	AT4G27550	18417014	NM_118890	trehalose-6-phosphate synthase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	F17O7.18	AT1G70290	18409492	NM_105697	"trehalose-6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	F20D23.30	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	F6I1.1	AT1G16980	18394426	NM_101559	"trehalose-6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	MSF3.8	AT2G18700	18398821	NM_127426	putative trehalose-6-phosphate synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T13D8.4	AT1G60140	NULL	NULL	"trehalose-6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T23E23.3	AT1G23870	18395316	NM_102235	"trehalose 6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T23K23.13	AT1G68020	18408921	NM_105472	putative trehalose-6-phosphate synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T2D23.11	AT1G06410	18390648	NM_100521	"trehalose-6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 20	NULL	NULL	T30F21.9	AT1G78580	18412031	NM_106505	"trehalose-6-phosphate synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 22	NULL	NULL	F6I1.10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 22	NULL	NULL	T9L3_150	AT5G14850	18417491	NM_121489	dolichyl-phosphate-mannose--glycolipid alpha-mannosyltransferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase- Family 24	NULL	NULL	F3I17.13	AT1G71220	18409797	NM_105791	putative UDP-glucose:glycoprotein glucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 28	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 28	NULL	NULL	F5O24_300	AT5G20410	18420203	NM_122048	monogalactosyldiacylglycerol synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 28	NULL	NULL	F28M20.30	AT4G31780	18417873	NM_119327	monogalactosyldiacylglycerol synthase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 28	NULL	NULL	F25P22.16	AT1G73740	18410444	NM_106033	putative UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide)-pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 29	NULL	NULL	F22O13.14	AT1G08660	18390924	NM_100739	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 29	NULL	NULL	T21J18_90	AT3G48820	18408709	NM_114741	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 30	NULL	NULL	F17C15_190 (MED24.5)	AT5G03770	18414343	NM_120458	3-deoxy-D-manno-octulosonic acid transferase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F10M23.280	AT4G26940	18416894	NM_118828	Avr9 elicitor response like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	YUP8H12_22	AT1G05170	18390487	NM_100395	putative AVR9 elicitor response protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T22F11.11	AT2G25300	18400790	NM_128087	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F24P17_7	AT3G06440	18397573	NM_111519	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	A_IG005I10_16	AT4G00300	18411278	NM_116251	not found	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F8L21_140	AT4G11350	18413511	NM_117206	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F16G20.190	AT4G23490	18416155	NM_118478	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	dl3665c	AT4G15240	18414409	NM_117612	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F10C21.10	AT1G33430	18398845	NM_103068	"elicitor response protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F10N7.80	AT4G32110	NULL	NULL	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F12M16.19	AT1G53290	18404401	NM_104207	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F13M22.23	AT2G37730	NULL	NULL	putative zinc finger protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F22L4.11	AT1G01570	18378856	NM_100039	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F24B9.5	AT1G07850	18390819	NM_100659	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F24K9.9	AT3G11420	18399223	NM_111975	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F25A4.23	AT1G74800	18410699	NM_106138	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F25C20.12	AT1G11730	18391308	NM_101045	Avr9 elicitor response-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F28K19.2	AT1G77810	18411701	NM_106430	"Avr9 elicitor response protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F2E2.6	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	F9L11.10	AT1G32930	18398652	NM_103026	"Avr9 elicitor response protein, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	K15M2.10	AT3G14960	18400589	NM_112358	"galactosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	K19E1.14	AT5G53340	18423500	NM_124713	Avr9 elicitor response protein-like	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	MUA2.7	AT5G57500	18423986	NM_125131	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	MYC6.16	AT5G41460	18422099	NM_123510	strong similarity to unknown protein (pir||T13026)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T13K14.220	AT4G21060	18415617	NM_118224	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T16O9.11	AT1G33250	18398781	NM_103053	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T19L18.9	AT2G26100	18401025	NM_128168	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T24P13.20	AT1G26810	18396063	NM_102445	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T32E8.14	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T32F6.5	AT2G32430	18402969	NM_128802	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	T7N9.18	AT1G27120	18396197	NM_102474	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 31	NULL	NULL	YUP8H12.11	AT1G05280	18390503	NM_100407	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 32	NULL	NULL	F16M14.8	AT2G38150	NULL	NULL	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 32	NULL	NULL	F18F4.6	AT4G19900	18415401	NM_118109	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 32	NULL	NULL	F7J8.230	AT5G01250	18412806	NM_120203	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 32	NULL	NULL	T16O11.2	AT3G09020	18398329	NM_111736	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 32	NULL	NULL	T7P1.18	AT1G61050	18406994	NM_104785	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 33	NULL	NULL	F19K19.11	AT1G16570	18394377	NM_101521	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	F22I13.80	AT4G38310	18420215	NM_119993	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	F19F18.180	AT4G37690	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	F1M20.6	AT1G74380	18410600	NM_106098	putative alpha galactosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	F26K9_150	AT3G62720	18412476	NM_116137	alpha galactosyltransferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	F6A14.20	AT1G18690	18394642	NM_101727	"alpha galactosyltransferase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	MBK20.18	AT5G07720	18415595	NM_120854	alpha galactosyltransferase protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	T14P8.23;T10P11.20	AT4G02500	18411961	NM_116484	putative glycosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 34	NULL	NULL	T20K9.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 35	NULL	NULL	F13I12.20	AT3G46970	18408321	NM_114564	starch phosphorylase H (cytosolic form) - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 35	NULL	NULL	MUO10.2	AT3G29320	18406145	NM_113857	"alpha-glucan phosphorylase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F26H6.13	AT2G15350	18397794	NM_127095	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F26H6.11	AT2G15370	18397799	NM_127097	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F26H6.9	AT2G15390	18397803	NM_127099	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F16A14.28	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F1M20.10	AT1G74420	18410610	NM_106102	putative xyloglucan fucosyltransferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F7A19.15	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F7A19.16	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F7A19.18	AT1G14100	18394067	NM_101275	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	F7A19.19	AT1G14110	18394068	NM_101276	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	T18E12.12	AT2G03210	18395504	NM_126372	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 37	NULL	NULL	T18E12.11	AT2G03220	18395508	NM_126373	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 41	NULL	NULL	T6K12.14	AT3G04240	18396820	NM_111295	putative O-linked GlcNAc transferase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 41	NULL	NULL	F24K9.29	AT3G11540	18399273	NM_111987	spindly (gibberellin signal transduction protein)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 43	NULL	NULL	T2N18.15	AT2G37090	18404318	NM_129265	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 43	NULL	NULL	C7A10.470	AT4G36890	18419928	NM_119853	UDP-glucuronyltransferase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 43	NULL	NULL	T17H3.10	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 43	NULL	NULL	T22C5.4	AT1G27600	18396408	NM_102525	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 47	NULL	NULL	F27K19_10	AT3G55830	18410369	NM_115441	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 47	NULL	NULL	F5I6.4	AT1G80290	18412742	NM_106678	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 47	NULL	NULL	T27B3.50	AT3G42180	18407068	NM_114085	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 47	NULL	NULL	T32M21_100	AT5G04500	18414581	NM_120532	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F3F20.1	AT1G05570	18390541	NM_100436	putative glucan synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F22D22.29	AT2G31960	18402835	NM_128756	putative glucan synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	T1J8.3	AT2G36850	NULL	NULL	putative glucan synthase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F9H3.18;T5L23.4	AT4G03550	18412292	NM_116593	putative glucan synthase component	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	T32N4.8	AT4G04970	18412762	NM_116736	not found	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F12K11.17	AT1G06490	18390656	NM_100528	"glucan synthase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F17J16_150	AT3G59100	18411093	NM_115772	putative protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	F5H8.14	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	MIE1.7	AT3G14570	18400442	NM_112317	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	T1B9.18	AT3G07170	18397860	NM_111597	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	T24H18_170	AT5G13000	18416930	NM_121303	callose synthase catalytic subunit -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 48	NULL	NULL	T25N20.22 (probable fragment)	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Glycosyltransferase Family- 50	NULL	NULL	NULL	AT5G22130	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Glycosyltransferase Gene Families	Non-Classified GT	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
NULL	GRAS Proteins	AtSCL1	NULL	F24J8.8	At1g21450	30687366	NM_101996	scarecrow-like transcription factor 1 (SCL1)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtGAI	RGA2	F10B6.34	At1g14920	30684069	NM_101361	"gibberellin-responsive modulator, DELLA subfamily member (Peng J, Carol P, Richards DE, King KE, Cowling RJ, Murphy GP, Harberd NP (1997) The Arabidopsis GAI gene defines a signaling pathway that negatively regulates gibberellin responses. Genes Dev 11: 3194-205)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	2820	9389651	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL3	NULL	F11F12_22	At1g50420	42562645	NM_103925	scarecrow-like transcription factor 3 (SCL3)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL4	NULL	MUD21_1	At5g66770	42568819	NM_126075	scarecrow transcription factor family protein 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL5	NULL	F11F12.8	At1g50600	30694804	NM_103942	scarecrow-like transcription factor 5 (SCL5)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL6	NULL	F6N15.20	At4g00150	42566178	NM_116232	"scarecrow-like transcription factor 6 (SCL6), target of  miR171/miRNA39"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL7	NULL	T3A5.30	At3g50650	42565807	NM_114925	"scarecrow-like transcription factor 7 (SCL7),"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL8	NULL	T4M5.2	At5g52510	42568488	NM_124630	scarecrow-like transcription factor 8 (SCL8) 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL9	NULL	F13M22.15	At2g37650	30687211	NM_129321	scarecrow-like transcription factor 9 (SCL9)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtRGA	REPRESSOR OF GA1-3 1	F2I9.19	At2g01570	30677937	NM_126218	"gibberellin response modulator, DELLA subfamily member  (Silverstone AL, Ciampaglio CN, Sun T (1998) The Arabidopsis RGA gene encodes a transcriptional regulator repressing the gibberellin signal transduction pathway. Plant Cell 10: 155-69)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	2669	9490740	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL11	NULL	F2O15.5	At5g59450	30697229	NM_125336	scarecrow-like transcription factor 11 (SCL11)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL13 	VHS4	ATFCA8	At4g17230	24111412	BT001076	scarecrow-like transcription factor 13 (SCL13) 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL14	NULL	F22G5.9	At1g07530	42561784	NM_100627	scarecrow-like transcription factor 14 (SCL14)	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL15	VHS5	ATAP22	At4g36710	30690740	NM_119835	scarecrow transcription factor family protein 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL16	NULL	MJB21	NULL	NULL	AB007647	pseudogene	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtRGL1	"RGA-LIKE 1, RGL, RGL1"	T27F4.10	At1g66350	30697338	NM_105306	"gibberellin regulatory protein (RGL1); Negative regulator of GA responses, DELLA subfamily member (Wen CK, Chang C (2002) Arabidopsis RGL1 encodes a negative regulator of gibberellin responses. Plant Cell 14: 87-100)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"501681968, 1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL18	AtLAS	F20N2.1	At1g55580	22330267	NM_104434	"similar to lateral suppressor protein of tomato, involved in axial meristem development (Greb T, Clarenz O, Schafer E, Muller D, Herrero R, Schmitz G, Theres K (2003) Molecular analysis of the LATERAL SUPPRESSOR gene in Arabidopsis reveals a conserved control mechanism for axillary meristem formation. Genes Dev 17: 1175-87)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"501706016, 1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtRGL2	NULL	T21P5.13	At3g03450	30678851	NM_111216	"gibberellin response modulator; DELLA subfamily member, possible involvement in nitrogen metabolism (Lee S, Cheng H, King KE, Wang W, He Y, Hussain A, Lo J, Harberd NP, Peng J (2002) Gibberellin regulates Arabidopsis seed germination via RGL2, a GAI/RGA-like gene whose expression is up-regulated following imbibition. Genes Dev 16: 646-58)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"1547409, 1486, 501711989"	10341448|14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCR	NULL	F24B22.180	At3g54220	42565917	NM_115282	"scarecrow transcription factor, putative, Regulates the radial organization of the root, (Di Laurenzio L, Wysocka-Diller J, Malamy JE, Pysh L, Helariutta Y, Freshour G, Hahn MG, Feldmann KA, Benfey PN (1996) The SCARECROW gene regulates an asymmetric cell division that is essential for generating the radial organization of the Arabidopsis root. Cell 86: 423-33)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	"3754, 501707852"	8756724	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSHR	SGR7	F19F18.140	At4g37650	30691190	NM_119928.2	"short-root transcription factor (SHR), Involved in radial organization of the root and shoot axial organs. Essential for normal shoot gravitropism. (Helariutta Y, Fukaki H, Wysocka-Diller J, Nakajima K, Jung J, Sena G, Hauser MT, Benfey PN (2000) The SHORT-ROOT gene controls radial patterning of the Arabidopsis root through radial signaling. Cell 101: 555-67)"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL21	NULL	F1O13.2	At2g04890	6644391	AF210732	scarecrow-like transcription factor 21 (SCL21) 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL22	NULL	T4C21.40	At3g60630	42566093	NM_115927	"scarecrow transcription factor family protein, target of  miR171/miRNA39"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL23	NULL	MJC20.2	At5g41920	30693926	NM_123557	scarecrow transcription factor family protein 	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtPAT1	NULL	MIF21.4	At5g48150	42573613	NM_203174	"phytochrome A signal transduction 1 (PAT1), Semi-dominant mutant has a reduced response to far-red light and appears to act early in the phytochrome A signaling pathway (Bolle C, Koncz C, Chua NH (2000) PAT1, a new member of the GRAS family, is involved in phytochrome A signal transduction. Genes Dev 14: 1269-78) "	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtRGL3	NULL	K3M16.60	At5g17490	30686387	NM_121755	"gibberellin response modulator, DELLA subfamily member"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL26	NULL	T12G13_90	At4g08250	18413097	NM_116894	"scarecrow transcription factor family protein, "	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL27	NULL	T14P1.3	At2g45160	30689940	NM_130079	"scarecrow transcription factor family protein, target of  miR171/miRNA39"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL28	NULL	F16M19.21	At1g63100	18407733	NM_104988	scarecrow transcription factor family protein	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL29	NULL	MCP4.6	At3g13840	18400186	NM_112237	scarecrow transcription factor family protein	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL30	NULL	F12A12.120	At3g46600	30692735	NM_114527	scarecrow transcription factor family protein	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL31	NULL	F22G5.41	At1g07520	42561783	NM_100626	scarecrow transcription factor family protein	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL32	NULL	F3A4.30	At3g49950	18408986	NM_114855	scarecrow transcription factor family protein	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
NULL	GRAS Proteins	AtSCL33	NULL	T9I4_14	At2g29060	30684107	NM_128463	"scarecrow transcription factor family protein, Caution: annotation perhaps wrong, containing two SCL genes"	NULL	Defined by the presence of highly conserved domains in the C-terminus (GRAS:IPR005202)	1329	NULL	501711989	14760535	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bolle.htm	Functional and Biochemical Analysis of the GRAS Multiprotein Family
GST superfamily	Phi family	AtGSTF2	GST4	T10P11.18	AT4g02520	18411967	NM_116486	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF3	NULL	T17M13.10	At2g02930	30678032	NM_126346	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF4	NULL	F22D16.5	AT1g02950	30678436	NM_179250	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF5	NULL	F22D16.6	AT1g02940	18379032	NM_100175	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF6	GST1	F22D16.7	AT1g02930	20453338	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF7	NULL	F22D16.8	AT1g02920	20259865	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF8	GST6	F17A22.12	AT2g47730	30690771	NM_180148	glutathione S-transferase 6 (GST6)	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF9	NULL	F7F1.7	AT2g30860	13926309	AF372905	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF10	NULL	F7F1.8	AT2g30870	22136037	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF11	NULL	T17B22.12	AT3g03190	20466619	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF12	NULL	MKP11.7	AT5g17220	11096011	AF288189	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF13	NULL	F26K9.190	AT3g62760	18412490	NM_116141	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Phi family	AtGSTF14	NULL	F10F5.9	AT1g49860	42562635	NM_103873	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU1	NULL	F16P2.13	AT2g29490	16226389	AF428387	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU2	NULL	F16P2.14	AT2g29480	20453169	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU3	NULL	F16P2.15	AT2g29470	26450303	AK117612	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU4	NULL	F16P2.16	AT2g29460	14423533	AF387004	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU5	NULL	F16P2.17	AT2g29450	21407187	NULL	glutathione S-transferase (103-1A)	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU6	NULL	F16P2.18	AT2g29440	11096007	AF288187	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU7	NULL	F16P2.20	AT2g29420	21405068	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU8	NULL	F3L24.14	AT3g09270	21404826	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU9	NULL	K19B1.9	AT5g62480	11095991	AF288179	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU10	NULL	F1M20.27	AT1g74590	21406826	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU11	NULL	T17F3.4	AT1g69930	26453279	AK119143	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU12	NULL	T17F3.5	AT1g69920	38454099	BT010687	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU13	NULL	T7N9.190	AT1g27130	15215629	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU14	NULL	T7N9.20	AT1g27140	11095989	AF288178	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU15	NULL	T30E16.25	AT1g59670	21403702	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU16	NULL	T30E16.30	AT1g59700	13877558	AF370480	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU17	NULL	F14N23.25	AT1g10370	30681676	NM_100911	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU18	NULL	F14N23.24	AT1g10360	42561897	NM_100910	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU19	NULL	F3F9.11	AT1g78380	21405756	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU20	NULL	F3F9.23	AT1g78370	21405750	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU21	NULL	F3F9.24	AT1g78360	18411918	NM_106483	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU22	NULL	F3F9.13	AT1g78340	21405179	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU23	NULL	F3F9.14	AT1g78320	21404523	NULL	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU24	NULL	F20D23.13	AT1g17170	45752759	BT012184	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU25	NULL	F20D23.12	AT1g17180	26452820	AK118907	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU26	NULL	F20D23.11	AT1g17190	13624650	AJ306688	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU27	NULL	T28A8.90	AT3g43800	13878022	AF370274	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tau family	AtGSTU28	NULL	F22G10.22	AT1g53680	18404581	NM_104246	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Zeta family	AtGSTZ1	NULL	T16F16.18	AT2g02390	15450462	NULL	glutathione S-transferase zeta 1	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Zeta family	AtGSTZ2	NULL	T16F16.17	AT2g02380	18395358	NM_126295	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Theta family	AtGSTT1	NULL	MEE6.28	AT5g41210	15451157	NULL	glutathione S-transferase (GST10)	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Theta family	AtGSTT2	NULL	K1O13.3	AT5g41240	4218143	AJ132398	"glutathione transferase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Lambda family	AtGSTL1	NULL	F9G14.90	AT5g02780	30679764	NM_120356	"In2-1 protein, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Lambda family	AtGSTL2	NULL	T15C9.60	AT3g55040	18410185	NM_115362	"In2-1 protein, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Lambda family	AtGSTL3	NULL	F9G14.100	AT5g02790	21403836	NULL	"In2-1 protein, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Dehydroascorbate reductase family	AtDHAR1	NULL	F14P1.9	AT1g19570	14517509	NULL	"dehydroascorbate reductase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Dehydroascorbate reductase family	AtDHAR2	NULL	F22H5.1	AT1g75270	21406197	NULL	"dehydroascorbate reductase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Dehydroascorbate reductase family	AtDHAR3	NULL	F5E19.50	AT5g16710	17473686	NULL	"dehydroascorbate reductase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Dehydroascorbate reductase family	AtDHAR4	NULL	T30G6.13	AT5g36270	18421548	NM_123018	"dehydroascorbate reductase, putative"	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
GST superfamily	Tetrachlorohydroquinone dehalogenase-like family	AtTCHQD1	NULL	T14N5.14	AT1g77290	17381155	NULL	tetrachloro-p-hydroquinone reductive dehalogenase-related	NULL	Members of the GST gene family were identified on the basis of sequence homology to known GSTs.  Protein sequences of approximately ten known GSTs were used as queries to identify Arabidopsis GSTs using BLAST.  These new putative GSTs were then used as queries until no new sequences were identified.  The 53 GSTs were subdivided into 7 groups based on phylogenetic analysis and intro:exon structure.	1501414806; 1501414127; 6670	NULL	501712407; 501712967; 501681713; 501681522	15159623|15276449|12090627|12077129	http://www.mitoz.bcs.uwa.edu.au/AtGST/	The Arabidopsis thaliana GST Superfamily
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	AtHsfA1a	NULL	fca_all	AT4G17750	18414956	NM_117884	CAB10555	heat shock transcription factor HSF1	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	AtHsfA1b	NULL	ku_e_26	AT5G16820	18418096	NM_121688	Heat Shock Factor 3	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	AtHsfA1d	NULL	f27g20	AT1G32330	18398383	NM_102966	"heat shock transcription factor HSF8, putative"	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	AtHsfA1e	NULL	f13e7	AT3G02990	18396404	NM_111169	putative heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	AtHsfA2	NULL	t19118	AT2G26150	18401045	NM_128173	putative heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA3	NULL	pl_e_21	AT5G03720	18414323	NM_120453	heat shock transcription factor -like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA4a	NULL	pl_d_20	AT4G18880	18415189	NM_118004	heat shock transcription factor - like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA4c	NULL	mra19	AT5G45710	18422582	NM_123938	heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA5	NULL	fca_all	AT4G13980	18414113	NM_117472	heat shock transcription factor like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA6a	NULL	mqd19	AT5G43840	18422377	NM_123751	heat shock transcription factor-like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA6b	NULL	mwi23	AT3G22830	18403537	NM_113182	putative heat shock protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA7a	NULL	me_c_20	AT3G51910	18409450	NM_115050	putative heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA7b	NULL	rr_c_27	AT3G63350	18412735	NM_116200	heat shock transcription factor-like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA8	NULL	t23k23	AT1G67970	18408909	NM_105467	putative heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfA9	NULL	mjp23	AT5G54070	18423585	NM_124786	putative protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfB1	NULL	ap2	AT4G36990	18419948	NM_119862	heat shock transcription factor HSF4	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfB2a	NULL	mtg10	AT5G62020	18424540	NM_125595	heat shock factor 6	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfB2b	NULL	dt_d_26	AT4G11660	18413624	NM_117235	heat shock transcription factor - like protein	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfB3	NULL	t32g6	AT2G41690	18405778	NM_129732	putative heat shock transcription factor	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfB4	NULL	f2g19	AT1G46264	18401566	NM_103602	"heat shock transcription factor, putative"	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
Heat Shock Transcription Factors	Heat Stress Transcription Factor (Hsf) family	At-HsfC1	NULL	mob24	AT3G24520	18404226	NM_113363	"heat shock transcription factor HSF1, putative"	NULL	Hsf family is based on the highly conserved DNA binding domain and adjacent oligomerization domains (HR-A/B region)	912135	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/AFGN/AFGNHome.html	The Arabidopsis Functional Genomics Network
NULL	Histidine Kinase	CKI1	NULL	T30B22.27	AT2G47430	18407354	NM_130311	putative histidine kinase	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040183;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	AHK1	AtHK1	T13L16.16	AT2G17820	18398531	NM_127335	putative histidine kinase	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	AHK2	NULL	MXH1.16	AT5G35750	18421493	NM_122966	histidine kinase-like protein	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	AHK3	NULL	F17L21.11	AT1G27320	18396291	NM_102494	putative sensory transduction histidine kinase	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	CRE1	AHK4;WOL1	T23K3.2	AT2G01830	18379304	NM_126244	putative histidine kinase	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	CKI2	AHK5	MAJ23.80	AT5G10720	18416359	NM_121110	histidine kinase - like protein	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	ETR1	NULL	T27F4.9	AT1G66340	18408489	NM_105305	"ethylene-response protein, ETR1"	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	ERS1	NULL	T20B5.14	AT2G40940	18405553	NM_129658	ethylene response sensor (ERS)	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	ETR2	NULL	K14B15.9	AT3G23150	18403666	NM_113216	"ethylene receptor, putative (ETR2)"	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	EIN4    	NULL	F7O18.5	AT3G04580	18396933	NM_111329	putative ethylene receptor (EIN4)	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	ERS2	NULL	F19P19.25	AT1G04310	18379312	NM_100312	putative ethylene receptor (ERS2)	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	PHYA	NULL	F14J9.23	AT1G09570	18391037	NM_100828	putative phytochrome A	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	PHYB	NULL	MSF3.17	AT2G18790	18398847	NM_127435	phytochrome B	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	PHYC	NULL	MIK22.15	AT5G35840 	NULL	NULL	phytochrome C (sp|P14714)	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	PHYD	NULL	dl4165c	AT4G16250	18414623	NM_117721	phytochrome D	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Kinase	PHYE	NULL	F15J5.100	AT4G18130	18415028	NM_117923	phytochrome E	NULL	NULL	6184;1113137;10719;218	NULL	NULL	12040138;11574878;12068096	NULL	NULL
NULL	Histidine Phosphotransfer Proteins	AHP1	AtHP3	MIL23.7	AT3G21510	18403030	NM_113046	"two-component phosphorelay mediator, putative"	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
NULL	Histidine Phosphotransfer Proteins	AHP2	AtHP1	MUO10.16	AT3G29350	18406157	NM_113860	"ATHP2, putative"	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
NULL	Histidine Phosphotransfer Proteins	AHP3	AtHP2	MUL8.2	AT5G39340	18421855	NM_123296	His-Asp Phosphotransfer Signal Transducer AHP3	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
NULL	Histidine Phosphotransfer Proteins	AHP4	NULL	MYA6.17	AT3G16360	18401104	NM_112507	putative two-component phosphorelay mediator	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
NULL	Histidine Phosphotransfer Proteins	AHP5	NULL	F21B7.40	AT1G03430	18379096	NM_100225	putative AHP2	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
NULL	Histidine Phosphotransfer Proteins	AHP6	AtPHP1	F18B13.18	AT1G80100	18412652	NM_106659	"HPt phosphotransmitter, putative"	NULL	NULL	6184;10719;5286;1113137;218	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab Page
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ1	NULL	F18N11_20	At3g45260	41059983	CAF18562	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ2	NULL	F5O4_16	At2g02070	41059987	CAF18564	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ3	NULL	F15A17_180	At5g03150	41059985	CAF18563	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ4	NULL	F21M11_25	At1g03840	4204303	AAP12858	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ5	NULL	MLN1_8	At5g44160	14335046	AAK59787	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ6	NULL	T3A5_80	At3g50700	6782244	CAB62439	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ7	NULL	MSN2_12	At5g66730	8843731	AAM20710	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ8	NULL	T10P11_4	At4g02670	3892045	AAC78253	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ9	NULL	MCP4_2	At3g13810	13605633	AAK32810	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ10	NULL	T7N22_5	At1g55110	12321573	AAM14021	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
C2H2 zinc finger proteins	INDETERMINATE1-like zinc finger protein IDZ family	AtIDZ11	NULL	MUF9_10	At5g60470	9757749	BAB08230	zinc finger (C2H2 type) family protein	NULL	"defined by the presence of a C2H2 zinc finger motif, followed by a second motif with a CCHC signature, and by high sequence similarity with the maize ID1 protein in the zinc finger domains and in the adjacent regions; different to the WIP zinc finger protein family that shares the same zinc finger motifs"	1827	NULL	778|1546289	10652141|11556782 	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/merkle.htm	Functional analysis of the Arabidopsis IDZ family of zinc finger proteins
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T10P11_3	AT4G02700	18412018	NM_116504	sulfate transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T26J12_13	AT1G23090	18395201	NM_102157	putative sulphate transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	MSL1_3	AT3G15990	18400979	NM_112469	putative sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T29J13_20	AT5G19600	18419966	NM_121965	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T6I14_80	AT5G13550	18417113	NM_121358	sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	MSL1_3	AT3G15990	18400979	NM_112469	putative sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T3F12_7	AT4G08620	18413136	NM_116931	putative sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	F28K19_21	AT1G77990	18411772	NM_106448	"sulfate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	F28K19_22	AT1G78000	18411775	NM_106449	"high affinity sulphate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T2E22_117	AT3G12520	18399640	NM_112087	"sulfate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	F2E2_7	AT1G22150	18395078	NM_102065	"high affinity sulphate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	T31P16_170	AT5G10180	18416204	NM_121056	sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	F5I6_6	AT1G80310	18412764	NM_106680	putative sulfate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative sulfate transporter family	NULL	NULL	F3N11.13	AT2G25680	18400903	NM_128127	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP1	NULL	F23A5_13	AT1G80830	18412902	NM_106731	metal ion transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP6	NULL	T24D18_6	AT1G15960	18394304	NM_101464	"metal ion transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP3	NULL	T20D16.22	AT2G23150	18400180	NM_127879	putative metal ion transporter (Nramp)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP2	NULL	F8G22_4	AT1G47240	18401636	NM_103618	natural resistance-associated macrophage protein family protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP4	NULL	K8K14_5	AT5G67330	18425177	NM_126133	natural resistance-associated macrophage protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Nramp2 family	ATNRAMP5	NULL	F28A21_200	AT4G18790	18415172	NM_117995	ion transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	F14D17_130	AT3G45060	18407905	NM_114375	high-affinity nitrate transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	T6D22_6	AT1G08090	18390852	NM_100684	high-affinity nitrate transporter NRT2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	T6D22_7	AT1G08100	18390853	NM_100685	high-affinity nitrate transporter ACH2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	T15N1_60	AT5G14570	18417413	NM_121461	high affinity nitrate transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	F13K23_15	AT1G12940	18391457	NM_101165	"nitrate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	mae1_20	AT5G60770	18424395	NM_125470	high-affinity nitrate transporter ACH1 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	High affinity nitrate transporter family	NULL	NULL	mae1_30	AT5G60780	18424396	NM_125471	high affinity nitrate transporter protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	IRT2	NULL	T16H5_40	AT4G19680	18415357	NM_118088	putative Fe(II) transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	IRT1	NULL	T16H5_50	AT4G19690	18415359	NM_118089	Fe(II) transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP5	NULL	YUP8H12_8	AT1G05300	18390505	NM_100409	putative zinc transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP12	NULL	mtg10_180	AT5G62160	18424557	NM_125609	iron-regulated transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP6	NULL	T27E13.18	AT2G30080	18402248	NM_128563	putative Fe(II) transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	IRT3	NULL	T7P1_10	AT1G60960	18406953	NM_104776	putative iron-regulated transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP3	NULL	T32F6.21	AT2G32270	18402920	NM_128786	putative Fe(II) transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP4	NULL	T19D16_11	AT1G10970	18391224	NM_100972	"ZIP4, a putative zinc transporter"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP9	NULL	F26P21_140	AT4G33020	18418135	NM_119456	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP1	NULL	MBK21_11	AT3G12750	18399734	NM_112111	putative zinc transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Fe(II) transporter isolog family	ZIP10	NULL	T19E23_6	AT1G31260	18397869	NM_102864	"iron-regulated transporter protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F18F4_60	AT4G19960	18415409	NM_118114	potassium transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T9E8_160	AT4G13420	18414003	NM_117416	potassium transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T27E13.19	AT2G30070	18402243	NM_128562	high affinity K+ transporter (ATKUP1/ATKT1p)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T13D8_5	AT1G60160	NULL	NULL	"potassium transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F1C9_17	AT3G02050	18396051	NM_111071	putative potassium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T9L3_180	AT5G14880	18417503	NM_121492	putative cation transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F9D16_110	AT4G23640	18416186	NM_118495	putative potassium transport protein (TRH1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T2P4.11	AT2G40540	18405432	NM_129616	putative potassium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F17O7_17	AT1G70300	18409494	NM_105698	"potassium transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T5E8_200	AT5G09400	18415964	NM_120976	potassium transport protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F28K20_5	AT1G31120	18397810	NM_102850	putative potassium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	F19I3.29	AT2G35060	18403732	NM_129058	putative potassium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	NULL	NULL	T16L1_20	AT4G33530	18418233	NM_119508	putative potassium transporter ATKT5p (ATKT5)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative zinc transporter ZIP2 - like family	ZIP11	NULL	F14J16_22	AT1G55910	18405596	NM_104468	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative zinc transporter ZIP2 - like family	ZIP2	NULL	f2o15_180	AT5G59520	18424250	NM_125344	putative zinc transporter ZIP2 - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Cation-chloride co-transporter family	NULL	NULL	F10A8.16	AT2G01280	18379192	NM_126189	putative transcription factor IIIB 70 KD subunit (TFIIIB)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Cation-chloride co-transporter family	ATCCC1	NULL	F26G16_9	AT1G30450	18397515	NM_102781	"cation-chloride co-transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Zinc transporter (ZAT) family	ATMTPb1	NULL	F16P2.21	AT2G29410	18402036	NM_128495	putative zinc transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Zinc transporter (ZAT) family	ZAT	ATMTP1	F19D11.8	AT2G46800	18407174	NM_130246	putative zinc transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Zinc transporter (ZAT) family	ATMTPa1	NULL	F21F14_110	AT3G61940	18412201	NM_116059	zinc transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Zinc transporter (ZAT) family	ATMTPa2	NULL	T20N10_160	AT3G58810	18411035	NM_115743	zinc transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter family	NULL	NULL	T6G15_60	AT4G13510	18414021	NM_117425	ammonium transport protein (AMT1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter family	NULL	NULL	F16A16_190	AT4G28700	18417246	NM_119012	ammonium transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter family	NULL	NULL	K7M2_4	AT3G24290	18404127	NM_113335	"ammonium transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter family	NULL	NULL	K7M2_5	AT3G24300	18404129	NM_113336	ammonium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter family	NULL	NULL	F13O11_9	AT1G64780	18408128	NM_105152	"ammonium transporter, puitative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	ATKEA1	NULL	T1N6_15	AT1G01790	18378882	NM_100062	K Efflux antiporter KEA1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	ATKEA3	NULL	T4B21_3	AT4G04850	18412715	NM_116723	putative potassium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative potassium transporter family	ATKEA2	NULL	F6N23_15	AT4G00630	18411394	NM_116288	putative potassium/H+ antiporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Copper transport protein-like family	NULL	NULL	T6H20_70	AT3G46900	18408308	NM_114557	copper transport protein - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Copper transport protein-like family	NULL	NULL	T8P21.17	AT2G37920	NULL	NULL	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Copper transport protein-like family	NULL	NULL	T1M15_50	AT5G20650	18420275	NM_122072	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Copper transport protein-like family	NULL	NULL	k18b18_10	AT5G59030	18424184	NM_125293	copper transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Copper transport protein-like family	NULL	NULL	k18b18_20	AT5G59040	18424185	NM_125294	copper transport protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	T5N23_60	AT3G54700	18410116	NM_115327	phosphate transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	T7F6.11	AT2G38940	18404901	NM_129452	phosphate transporter (ATPT2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	F14G6_3	AT1G76430	18411105	NM_106293	putative phosphate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	MWF20_3	AT5G43340	18422321	NM_123700	inorganic phosphate transporter (dbj|BAA34390.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	MWF20_4	AT5G43350	18422322	NM_123701	phosphate transporter (gb|AAB17265.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	MWF20_5	AT5G43360	18422323	NM_123702	inorganic phosphate transporter (dbj|BAA24281.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	MWF20_6	AT5G43370	18422324	NM_123703	inorganic phosphate transporter (dbj|BAA24282.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	T21L14.23	AT2G32830	18403102	NM_128843	putative phosphate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Inorganic phosphate transporter family	NULL	NULL	F9H16_16	AT1G20860	18394920	NM_101939	putative inorganic phosphate transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Ammonium transporter	NULL	NULL	F16M14.22	AT2G38290	18404705	NM_129385	putative ammonium transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Sodium transporter	ATHKT1	NULL	F24G24_110	AT4G10310	18413320	NM_117099	potassium uptake transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Inorganic Solute Cotransporters	Putative phosphate permease	NULL	NULL	MFE16_9	AT3G26570	18404996	NM_113565	"phosphate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	KAT1	NULL	MPL12_2	AT5G46240	18422649	NM_123993	potassium channel protein KAT1 (pir||S32816)	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	AKT2	NULL	T10I14_30	AT4G22200	18415863	NM_118342	potassium channel protein AKT3	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	SKOR	NULL	F13E7_21	AT3G02850	18396350	NM_111153	telar K+ outward rectifying channel (SKOR)	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	AKT6	NULL	F3N11.5	AT2G25600	18400880	NM_128118	putative potassium transporter/channel	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	NULL	NULL	mpa22_p_30	AT5G37500	18421654	NM_123109	stelar K+ outward rectifying channel (SKOR) - like protein	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	AKT1	NULL	F18A8.2	AT2G26650	18401199	NM_128222	"K+ transporter, AKT1"	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	AKT5	NULL	F8B4_200	AT4G32500	18418024	NM_119402	potassium channel - protein	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	KAT3	NULL	F4D11_150	AT4G32650	18418052	NM_119417	potassium channel protein AtKC	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Stelar K+ outward rectifying channel (SKOR) family	KAT2	NULL	T9A21_140	AT4G18290	18415059	NM_117939	potassium channel protein KAT2	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO-like protein 3 family	KCO3	NULL	MPL12_16	AT5G46360	18422665	NM_124006	KCO-like protein 3 (emb|CAB40380.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO5 protein family	KCO2	NULL	MPL12_17	AT5G46370	18422666	NM_124007	"outAn automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: ward rectifying potassium channel KCO"	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO5 protein family	KCO1	NULL	MDF20_7	AT5G55630	18423769	NM_124945	"outAn automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: ward rectifying potassium channel KCO"	NULL	"Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO5 protein family	KCO4	NULL	T14P4_20	AT1G02510	18378976	NM_100132	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO5 protein family	KCO5	NULL	T7B11_10	AT4G01840	18411749	NM_116414	putative potassium channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	KCO5 protein family	KCO6	NULL	F15J5_130	AT4G18160	18415033	NM_117926	potassium channel - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.1	NULL	T21B4_10	AT5G27100	18421079	NM_122592	ion channel - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.9	NULL	T9I4.18	AT2G29100	18401946	NM_128467	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.8	NULL	T9I4.19	AT2G29110	18401949	NM_128468	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.7	NULL	T9I4.20	AT2G29120	18401951	NM_128469	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.4	NULL	YUP8H12_19	AT1G05200	18390490	NM_100398	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.6	NULL	F2I11_70	AT5G11180	18416488	NM_121156	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.5	NULL	F2I11_100	AT5G11210	18416496	NM_121159	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR1.4	NULL	F21O3_23	AT3G07520	18397973	NM_111630	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR1.2	NULL	MJE7_3	AT5G48400	18422908	NM_124215	ligand-gated ion channel protein-like; glutamate receptor-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR1.3	NULL	MJE7_4	AT5G48410	18422909	NM_124216	ligand-gated ion channel protein-like; glutamate receptor-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.2	NULL	F23E12_150	AT4G35290	18418636	NM_119695	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.3	NULL	F27A10.2	AT2G24710	18400618	NM_128032	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.2	NULL	F27A10.3	AT2G24720	18400622	NM_128033	putative ligand-gated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.1	NULL	F5J6.2	AT2G17260	18398359	NM_127280	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.5	NULL	T32F6.9	AT2G32390	18402956	NM_128798	putative ligand-gated ion channel subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.7	NULL	T32F6.8	AT2G32400	18402959	NM_128799	putative ligand-gated ion channel subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR2.4	NULL	F28M20_100	AT4G31710	18417859	NM_119320	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.3	NULL	T8D8_1	AT1G42540	18400669	NM_103438	"ligand-gated ion channel, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR1.1	NULL	T6K12_27	AT3G04110	18396777	NM_111282	putative glutamate receptor (GLR1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative ligand-gated ion channel subunit family	ATGLR3.6	NULL	F26O13_120	AT3G51480	18409352	NM_115007	putative glutamate receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083;211861	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC15	NULL	T3B23.7	AT2G28260	18401686	NM_128386	putative cyclic nucleotide and calmodulin-regulated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC7	NULL	T24D18_9	AT1G15990	18394308	NM_101467	"cyclic nucleotide and calmodulin-regulated ion channel protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC3	NULL	F11C10.12	AT2G46430	18407072	NM_130207	putative cyclic nucleotide-regulated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC11	NULL	F11C10.13	AT2G46440	18407076	NM_130208	putative cyclic nucleotide-regulated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC12	NULL	F11C10.14	AT2G46450	NULL	NULL	putative cyclic nucleotide-regulated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC4	NULL	MDK4_7	AT5G54250	18423607	NM_124805	cyclic nucleotide and calmodulin-regulated ion channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC10	ACBK1	F6F3_15	AT1G01340	18378826	NM_100016	"cyclic nucleotide and calmodulin-regulated ion channel, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC6	NULL	T29E15.18	AT2G23980	18400425	NM_127960	cyclic nucleotide and calmodulin-regulated ion channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC16	NULL	T17F15_120	AT3G48010	18408558	NM_114670	putative cyclic nucleotide-gated channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC18	NULL	T9L3_170	AT5G14870	18417497	NM_121491	cyclic nucleotide and calmodulin-regulated ion channel -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC14	NULL	F25P17.9	AT2G24610	18400590	NM_128022	putative cyclic nucleotide-regulated ion channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC17	NULL	F17I23_300	AT4G30360	18417578	NM_119182	cyclic nucleotide and calmodulin-regulated ion channel-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC9	NULL	F17I23_100	AT4G30560	18417619	NM_119202	cyclic nucleotide and calmodulin-regulated ion channel-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC8	NULL	F14P1_46	AT1G19780	18394784	NM_101834	"cyclic nucleotide and calmodulin-regulated ion channel protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC19	CNBT2	MKP6_24	AT3G17690	18401604	NM_112650	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC20	CNBT1	MKP6_25	AT3G17700	18401605	NM_112651	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC2	DND1	T20K14_20	AT5G15410	18417659	NM_121545	cyclic nucleotide-gated cation channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC5	NULL	MTI20_20	AT5G57940	18424047	NM_125179	cyclic nucleotide and calmodulin-regulated ion channel (emb|CAB40130.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC13	NULL	f3i3_30	AT4G01010	18411506	NM_116329	cyclic nucleotide gated channel (CNGC4) like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Cyclic nucleotide gated channel family	ATCNGC1	NULL	MFH8_6	AT5G53130	18423474	NM_124692	cyclic nucleotide-regulated ion channel (emb|CAA76178.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Anion channel protein family	NULL	NULL	MHK7_12	AT5G40890	18422037	NM_123454	anion channel protein (gb|AAC05742.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Anion channel protein family	NULL	NULL	T29A4_90	AT5G33280	18421370	NM_122852	chloride channel-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Anion channel protein family	NULL	NULL	K9P8_3	AT5G49890	18423078	NM_124367	chloride channel (emb|CAA70310.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Anion channel protein family	NULL	NULL	T19G15_90	AT5G26240	18421003	NM_122525	CLC-d chloride channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Anion channel protein family	NULL	NULL	MYF5_4	AT3G27170	18405259	NM_113631	CLC-b chloride channel protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Ion Channel Families	Putative calcium channel	NULL	NULL	F9H3_19	AT4G03560	18412294	NM_116594	putative calcium channel	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Kinesins	Kinesin-like proteins	ATKatA	NULL	F7J7.210	AT4G21270	18415662	NM_118246	kinesin-related protein katA	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKatB	NULL	T24A18.130	AT4G27180	18416937	NM_118852	kinesin-related protein katB	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKatC	K5F14	K5F14.1	AT5G54670	18423655	NM_124848	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKatD	F2P16	F2P16.12	AT5G27000	18421068	NM_122582	kinesin-like heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKCBP	K14B20	K14B20.10	AT5G65930	18425008	NM_125990	kinesin-like calmodulin-binding protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKRP125a	F3G5	F3G5.21	AT2G37420	18404418	NM_129297	putative kinesin heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKRP125b	F9C22	F2H17.19	AT2G36200	18404072	NM_129178	putative kinesin-related cytokinesis protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATKRP125c	T8O18	T8O18.9	AT2G28620	18401797	NM_128423	putative kinesin-like spindle protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATd13205w	FCA1	dl3205w	AT4G14330	18414188	NM_117510	kinesin like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT19F6.160	NULL	T19F6.160	AT4G24170	18416290	NM_118549	putative protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT32N15.10	NULL	T32N15.10	AT3G44730	18407838	NM_114341	putative kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT30B22.20	NULL	T30B22.16	AT2G47500	18407374	NM_130318	putative kinesin heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT12M4.14	NULL	T12M4.14	AT1G09170	18390988	NM_100787	putative kinesin	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT5A14.3	NULL	T5A14.3	AT1G55550	18405420	NM_104431	awaiting functional assignment	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT9I22.5	NULL	T9I22.5	AT2G22610	18400027	NM_127826	putative kinesin heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF19H22.50	NULL	F19H22.50	AT4G38950	18420344	NM_120055	kinesin like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF19H22.150	NULL	F19H22.150	AT4G39050	18420367	NM_120065	kinesin like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF3K23.6	NULL	F3K23.6	AT2G21300	18399653	NM_127702	putative kinesin heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF3K23.14	NULL	F3K23.14	AT2G21380	18399674	NM_127709	putative kinesin heavy chain	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF8K7.17	NULL	F8K7.17	AT1G21730	18395026	NM_102022	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF28P10.150	NULL	F28P10.150	AT3G54870	18410151	NM_115344	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF14P13.9	NULL	F14P13.9	AT3G10310	18398831	NM_111866	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF14P13.22	NULL	F14P13.22	AT3G10180	18398787	NM_111853	putative kinesin-like centromere protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF24D7.17a	NULL	F2K11.1	AT1G63640	NULL	NULL	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATZCF125b	NULL	T30E16.9	AT1G59540	18406378	NM_104648	"kinesin motor protein (kin2), putative"	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT9C5.240	NULL	T9C5.240	AT3G49650	18408914	NM_114825	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF25P22.28c	NULL	F2P9.27	AT1G73860	18410474	NM_106046	putative kinesin	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF15H18.10	NULL	F15H18.10	AT1G18410	18394604	NM_101699	"kinesin-related protein, putative"	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF15H18.12	NULL	F15H18.12	AT1G18370	18394600	NM_101695	"kinesin heavy chain isolog, putative"	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF24M12.190	NULL	F24M12.190	AT3G51150	18409278	NM_114975	putative protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATC17L7.110	NULL	C17L7.110	AT4G05190	18412836	NM_116758	kinesin - like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF16L2.60	NULL	F16L2.60	AT3G45850	18408084	NM_114454	kinesin-related protein - like	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT1E22.130	NULL	T1E22.130	AT5G02307	NULL	NULL	kinesin -like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMAA21.110	NULL	MAA21.110	AT3G63480	18412811	NM_116213	kinesin heavy chain - like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT15B3.190	NULL	T15B3.190	AT3G44050	18407695	NM_114273	kinesin -like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF11C1.80	NULL	F11C1.80	AT3G50240	18409046	NM_114884	kinesin -like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF7K15.60	NULL	F7K15.60	AT3G43210	18407478	NM_114189	kinesin -like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF12B17.180	NULL	F12B17.180	AT5G10470	18416284	NM_121085	putative protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF22M8.8	NULL	F22M8.8	AT1G01950	18378902	NM_100075	unknown protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATPAKRPd	FCA0	dl3115c	AT4G14150	18414152	NM_117492	kinesin like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF5011.15	NULL	F5O11.15	AT1G12430	18391393	NM_101115	hypothetical protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT20H2.17	NULL	T20H2.17	AT1G20060	18394816	NM_101860	hypothetical protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMGL6.9	NULL	MGL6.9	AT3G16630	18401197	NM_112536	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMGD8.20	NULL	MGD8.23	AT3G17360	18401482	NM_112614	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATK13E13.17	NULL	K13E13.4	AT3G19050	18402094	NM_112791	hypothetical protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	AT MAL21.18	NULL	MAL21.18	AT3G20150	18402512	NM_112906	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMSL1.9	NULL	MSL1.9	AT3G16060	18401001	NM_112476	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMDB19.16	NULL	MDB19.17	AT3G23670	NULL	NULL	hypothetical protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMDH9.19	NULL	MDH9.19	AT5G42490	18422215	NM_123614	kinesin heavy chain-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMNA5.20	NULL	MNA5.20	AT5G65460	18424953	NM_125944	putative protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF25I16.11	NULL	F25I16.11	AT1G18550	18394624	NM_101713	hypothetical protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT21B14.15e	NULL	MEC18.17	AT3G12020	18399451	NM_112036	unknown protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMSL3.5	NULL	MSL3.50	AT5G60930	18424413	NM_125486	microtubule-associated motor - like	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATK1L20.9	NULL	K1L20.9	AT5G66310	18425057	NM_126029	kinesin heavy chain DNA binding protein-like	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATK1013.11	NULL	K1O13.11	AT5G41310	18422081	NM_123496	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF15M7.20	NULL	F15M7.20	AT5G06670	18415280	NM_120750	kinesin heavy chain-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMCA23.16	NULL	MCA23.16	AT5G47820	18422841	NM_124156	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATT9N14.6	NULL	T9N14.6	AT1G72250	18410035	NM_105884	"kinesin, putative"	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATMRO11.5	NULL	MRO11.5	AT5G23910	18420729	NM_122296	unknown protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF15F15.20	NULL	F15F15.20	AT5G27950	18421179	NM_122678	putative protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
Kinesins	Kinesin-like proteins	ATF15A18.10	NULL	F15A18.10	AT5G27550	18421129	NM_122637	kinesin-like protein	NULL	NULL	5935;912159	NULL	1346605	NULL	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LOB	NULL	MDC12.5	AT5G63090	18424663	NM_125703	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD1	NULL	F24B9.1	AT1G07900	18390824	NM_100664	unknown protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD2	NULL	F9P14.14	AT1G06280	18390637	NM_100510	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD3	NULL	F3O9.33	AT1G16530	18394373	NM_101518	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD4	NULL	T19E23.11	AT1G31320	18397892	NM_102870	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD5	NULL	T22A15.8	AT1G36000	18399979	NM_103296	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD6	NULL	F5I14.15	AT1G65620	18408325	NM_105235	unknown protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD7	NULL	F3N23.18	AT1G72980	18410232	NM_105956	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD8	NULL	F3P11.11	AT2G19510	18399060	NM_127509	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD9	NULL	F6F22.15	AT2G19820	18399162	NM_127540	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD10	NULL	F27L4.15	AT2G23660	18400340	NM_127929	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD11	NULL	T17D12.6	AT2G28500	18401761	NM_128410	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD12	NULL	T27E13.13	AT2G30130	18402267	NM_128568	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD13	NULL	T9D9.15	AT2G30340	18402322	NM_128587	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD14	NULL	F16D14.15	AT2G31310	18402626	NM_128688	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD15	NULL	T2P4.18	AT2G40470	18405400	NM_129608	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD16	NULL	MHK10.15	AT2G42430	18405966	NM_129804	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD17	NULL	MHK10.16	AT2G42440	NULL	NULL	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD18	NULL	F4L23.7	AT2G45420	18406788	NM_130104	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD19	NULL	F4L23.8	AT2G45410	18406785	NM_130103	unknown protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD20	NULL	F20H23.21	AT3G03760	18396658	NM_111247	unknown protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD21	NULL	F9F8.10	AT3G11090	18399116	NM_111946	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD22	NULL	MCP4.8	AT3G13850	18400192	NM_112239	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD23	NULL	MLJ15.1	AT3G26620	18405021	NM_113573	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD24	NULL	MLJ15.5	AT3G26660	18405034	NM_113577	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD25	NULL	MGF10.6	AT3G27650	18405471	NM_113681	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD26	NULL	K24A2.3	AT3G27940	18405584	NM_113711	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD27	NULL	T23J7.200	AT3G47870	18408527	NM_114657	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD28	NULL	T20E23.110	AT3G50510	18409113	NM_114911	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD29	NULL	F9D24.100	AT3G58190	18410898	NM_115681	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD30	NULL	F6N15.4	AT4G00220	18411252	NM_116239	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD31	NULL	F6N15.25	AT4G00210	18411249	NM_116238	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD32	NULL	T12H17.90	AT4G22700	18415988	NM_118396	predicted protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD33	NULL	K16F4.4	AT5G06080	18415092	NM_120690	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD34	NULL	F2G14	NULL	NULL	NULL	NULL	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD35	NULL	MIK22.21	AT5G35900	18421509	NM_122981	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class I	LBD36	NULL	MUD21.13	AT5G66870	18425123	NM_126086	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD37	NULL	K8K14.16	AT5G67420	18425187	NM_126142	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD38	NULL	F3A4.20	AT3G49940	18408982	NM_114854	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD39	NULL	F6G17.4	AT4G37540	18420067	NM_119918	putative protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD40	NULL	F5A8.2	AT1G67100	18408691	NM_105380	hypothetical protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD41	NULL	F16B3.18	AT3G02550	18396228	NM_111122	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
NULL	Lateral Organ Boundaries Gene Family- Class II	LBD42	NULL	T26J14.8	AT1G68510	18409051	NM_105522	expressed protein	NULL	"All members contain the LOB domain, characterized by the amino acid sequence ""CX2CX6CX3C"""	1213505;1213506;4469	NULL	NULL	12068116	NULL	NULL
Lipid Metabolism Gene Families	Putative CDP-diacylglycerol synthetase family	NULL	NULL	F10M23_110	AT4G26770	18416819	NM_118811	putative CDP-diacylglycerol synthetase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative CDP-diacylglycerol synthetase family	NULL	NULL	T10I14_170	AT4G22340	18415902	NM_118360	CDP-diacylglycerol synthetase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative CDP-diacylglycerol synthetase family	NULL	NULL	F24O1_45	AT1G62430	18407585	NM_104923	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	k11j9_130	AT5G61610	18424488	NM_125555	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	MGF10_6	AT3G27660	18405477	NM_113682	oleosin isoform	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	F27J15_22	AT1G48990	18402452	NM_103792	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	MPO12_130	AT5G40420	18421983	NM_123406	oleosin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	F4P13_12	AT3G01570	18395862	NM_111023	putative oleosin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	MWD22_16	AT5G51210	18423252	NM_124500	oleosin-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	F17H15.8	AT2G25890	18400971	NM_128149	putative oleosin protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	T2I1_260	AT5G07550	18415548	NM_120837	glycine-rich protein PUTG1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	T2I1_270	AT5G07560	18415551	NM_120838	oleosin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	K24M9_6	AT3G18570	18401935	NM_112743	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Oleosin-like protein family	NULL	NULL	F13M23_280	AT4G25140	18416494	NM_118646	"oleosin, 18.5K"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F18F4_180	AT4G20080	18415434	NM_118127	Phosphoribosylanthranilate transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F25A4_35	AT1G74720	18410678	NM_106130	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	NULL	AT5G03435	NULL	NULL	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	T24H18_140	AT5G12970	18416917	NM_121300	anthranilate phosphoribosyltransferase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	MDN11_14	AT5G48060	18422867	NM_124180	phosphoribosylanthranilate transferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	T20K12_200	AT3G61300	18411941	NM_115994	anthranilate phosphoribosyltransferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F15G16_110	AT3G61720	18412110	NM_116037	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F5D21_2	AT1G51570	18403582	NM_104035	"anthranilate phosphoribosyltransferase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	MOJ9_2	AT5G06850	18415337	NM_120768	anthranilate phosphoribosyltransferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F6N23_8	AT4G00700	18411419	NM_116295	putative phosphoribosylanthranilate transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	T12J13_4	AT3G03680	18396623	NM_111239	putative phosphoribosylanthranilate transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	T10K17_90	AT3G57880	18410834	NM_115650	anthranilate phosphoribosyltransferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	T5C23_40	AT4G11610	18413603	NM_117230	putative phosphoribosylanthranilate transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F12K8_4	AT1G22610	18395137	NM_102108	"putative phosphoribosylanthranilate transferase, 5' partial"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	F20D22_8	AT1G04150	18379253	NM_100296	putative phosphoribosylanthranilate transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Similar to phosphoribosylanthranilate transferase family	NULL	NULL	MCM23_5	AT5G17980	18418483	NM_121803	phosphoribosylanthranilate transferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Fatty acid desaturase family	NULL	NULL	T3F17.14	AT2G46210	18407006	NM_130183	putative fatty acid desaturase/cytochrome b5 fusion protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Fatty acid desaturase family	NULL	NULL	F2A19_180	AT3G61580	18412058	NM_116023	delta-8 sphingolipid desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	T25N20_24	AT1G05450	18390526	NM_100424	"lipid-transfer protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	F17L24.13	AT2G13820	18397346	NM_126958	putative nonspecific lipid-transfer protein precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	F11L15.4	AT2G48140	18407535	NM_130381	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	F16J14_17	AT3G22600	18403452	NM_113159	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	F16J14_18	AT3G22610	18403460	NM_113161	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	MHJ24_6	AT5G64080	18424784	NM_125804	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	T3F12_2	AT4G08670	18413141	NM_116936	putative lipid transfer protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	F5J5_27	AT1G36150	18400047	NM_103312	"non-specific lipid transfer protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	T28A8_10	AT3G43720	18407624	NM_114240	lipid-transfer protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	T20P8.18	AT2G27130	18401328	NM_128271	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein family	NULL	NULL	T5E8_170	AT5G09370	18415957	NM_120973	putative lipid transfer protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidic acid phosphatase family	NULL	NULL	F10A8.6	AT2G01180	18379165	NM_126179	putative phosphatidic acid phosphatase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidic acid phosphatase family	NULL	NULL	F16B3_23	AT3G02600	18396249	NM_111128	putative phosphatidate phosphohydrolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidic acid phosphatase family	NULL	NULL	MIE15_1	AT3G18220	18401810	NM_112706	"diacylglycerol pyrophosphate phosphatase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidic acid phosphatase family	NULL	NULL	F9L1_2	AT1G15080	18394195	NM_101377	putative phosphatidic acid phosphatase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T21E18_10	AT1G06080	18390609	NM_100489	delta 9 desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T21E18_11	AT1G06090	18390610	NM_100490	"delta 9 desaturase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T21E18_12	AT1G06100	18390611	NM_100491	"delta 9 desaturase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T21E18_14	AT1G06120	18390614	NM_100493	"delta 9 desaturase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T2D23_16	AT1G06350	18390643	NM_100516	"delta 9 desaturase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T2D23_4	AT1G06360	18390644	NM_100517	"delta 9 desaturase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	T28P16.15	AT2G31360	18402640	NM_128693	delta 9 desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	MSJ11_25	AT3G15850	18400925	NM_112455	putative delta 9 desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Delta 9 desaturase family	NULL	NULL	MSJ11_27	AT3G15870	18400932	NM_112457	putative delta 9 desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative lipase family	NULL	NULL	F2P9_21	AT1G73920	18410486	NM_106051	putative lipase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative lipase family	NULL	NULL	F15H18_15	AT1G18460	18394609	NM_101703	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidate cytidylyltransferase family	NULL	NULL	T4C21_30	AT3G60620	18411666	NM_115926	phosphatidate cytidylyltransferase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidate cytidylyltransferase family	NULL	NULL	T14P1.4	AT2G45150	18406714	NM_130078	putative phosphatidate cytidylyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative C-4 sterol methyl oxidase family	NULL	NULL	F16P2.23	AT2G29390	18402027	NM_128493	putative C-4 sterol methyl oxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative C-4 sterol methyl oxidase family	NULL	NULL	F22G5_18	AT1G07420	18390766	NM_100616	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative C-4 sterol methyl oxidase family	NULL	NULL	T12H17_140	AT4G22750	18415999	NM_118402	predicted protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative C-4 sterol methyl oxidase family	NULL	NULL	F16J13_180	AT4G12110	18413749	NM_117281	putative C-4 sterol methyl oxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Omega-3 fatty acid desaturase family	NULL	NULL	F23F1.10	AT2G29980	18402205	NM_128552	omega-3 fatty acid desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Omega-3 fatty acid desaturase family	NULL	NULL	MOP10_12	AT5G05580	18414928	NM_120640	"temperature-sensitive omega-3 fatty acid desaturase, chloroplast precursor(sp|P48622)"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Omega-3 fatty acid desaturase family	NULL	NULL	F9F8_4	AT3G11170	18399140	NM_111953	"omega-3 fatty acid desaturase, chloroplast precursor"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Omega-3 fatty acid desaturase family	NULL	NULL	T21B14_107	AT3G12120	18399494	NM_112047	"omega-6 fatty acid desaturase, endoplasmic reticulum (FAD2)"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Fatty acid hydroxylase-like family	NULL	NULL	T13K14_30	AT4G20870	18415582	NM_118205	fatty acid hydroxylase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Fatty acid hydroxylase-like family	NULL	NULL	T29F13.2	AT2G34770	18403654	NM_129030	fatty acid hydroxylase (FAH1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative b-keto acyl reductase family	NULL	NULL	F21J9_190	AT1G24470	18395488	NM_102292	putative b-keto acyl reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative b-keto acyl reductase family	NULL	NULL	F12A21_31	AT1G67730	18408846	NM_105441	"b-keto acyl reductase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipophosphoglycan biosynthetic protein - like family	NULL	NULL	F28I16_130	AT5G19980	18420090	NM_122005	lipophosphoglycan biosynthetic protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipophosphoglycan biosynthetic protein - like family	NULL	NULL	F15M4_16	AT1G76340	18411081	NM_106283	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein; glossy1 homolog family	NULL	NULL	F13M22.20	AT2G37700	18404509	NM_129326	CER1-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein; glossy1 homolog family	NULL	NULL	MTI20_3	AT5G57800	18424026	NM_125164	lipid transfer protein; glossy1 homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein; glossy1 homolog family	NULL	NULL	T7I23_9	AT1G02190	18378930	NM_100099	CER1-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Lipid transfer protein; glossy1 homolog family	NULL	NULL	T7I23_10	AT1G02200	18378931	NM_100100	CER1 protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylinositol synthase family	NULL	NULL	T23K23_15	AT1G68000	18408916	NM_105470	phosphatidylinositol synthase (PIS1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylinositol synthase family	NULL	NULL	F20M13_130	AT4G38570	18420264	NM_120018	putative phosphatidylinositol synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylglycerophosphate synthase-like protein family	NULL	NULL	T15C9_30	AT3G55030	NULL	NULL	phosphatidylglycerophosphate synthase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylglycerophosphate synthase-like protein family	NULL	NULL	T16B24.7	AT2G39290	18405003	NM_129486	putative CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phospholipase A2-like family	NULL	NULL	F17A13_280	AT4G29460	18417402	NM_119091	phospholipase A2-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phospholipase A2-like family	NULL	NULL	F17A13_290	AT4G29470	18417404	NM_119092	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	3-hydroxy-3-methylglutaryl-CoA reductase family	NULL	NULL	F14G6_9	AT1G76490	18411119	NM_106299	3-hydroxy-3-methylglutaryl CoA reductase (AA 1-592)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	3-hydroxy-3-methylglutaryl-CoA reductase family	NULL	NULL	F5J6.24	AT2G17370	18398405	NM_127292	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative sterol-C5-desaturase family	NULL	NULL	F16B3_21	AT3G02580	18396244	NM_111126	sterol-C5-desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative sterol-C5-desaturase family	NULL	NULL	F16B3_22	AT3G02590	18396247	NM_111127	putative sterol-C5-desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylinositol 4-kinase family	NULL	NULL	MHJ24_5	AT5G64070	18424783	NM_125803	phosphatidylinositol 4-kinase (emb|CAB37928.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Phosphatidylinositol 4-kinase family	NULL	NULL	T5E8_150	AT5G09350	18415953	NM_120971	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Undecaprenyl diphosphate synthase family	NULL	NULL	muf9_150	AT5G60500	18424361	NM_125443	undecaprenyl diphosphate synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Undecaprenyl diphosphate synthase family	NULL	NULL	muf9_160	AT5G60510	18424362	NM_125444	undecaprenyl diphosphate synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative fatty acid desaturase	NULL	NULL	T1J1_1	AT4G04930	18412747	NM_116731	putative fatty acid desaturase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidylinositolglycan class N short form	NULL	NULL	T13O15_2	AT3G01380	18395800	NM_111004	putative phosphatidylinositolglycan class N short form	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative steroid dehydrogenase	NULL	NULL	F4P9.40	AT2G33630	18403335	NM_128923	putative steroid dehydrogenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Diacylglycerol O-acyltransferase	NULL	NULL	F3P11.5	AT2G19450	18399042	NM_127503	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative heme A: farnesyltransferase	NULL	NULL	F16B22.1	AT2G44520	18406555	NM_130015	putative heme A:farnesyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Lipid Metabolism Gene Families	Putative phosphatidylinositol-glycan synthase	NULL	NULL	F19I3.21	AT2G34980	18403705	NM_129050	putative phosphatidylinositol-glycan synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SUB:STRUBBELIG	NULL	T28P6_18	At1g11130	33307659	AF399923	leucine-rich repeat family protein / protein kinase family protein	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF1	NULL	F5H14_18	At2g20850	41323401	NULL	"leucine-rich repeat protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF2	NULL	MPH15_19	At5g06820	41323402	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF3	NULL	F4C21_35	At4g03390	41323404	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF4	NULL	MGH6_18	At3g13065	41323406	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF5	NULL	YUP8H12R_44	At1g78980	41323408	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF6	NULL	F22G10_3	At1g53730	41323410	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF7	NULL	MLN21_13	At3g14350	41323412	NULL	"leucine-rich repeat transmembrane protein kinase, putative"	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
Leucine-rich repeat receptor-like kinases	Strubbelig Receptor Family	SRF8	NULL	F1N20_230	At4g22130	41323414	NULL	protein kinase family protein	NULL	"A SUB domain and six LRRs in extracellular domain, kinase domain homology, possibly unfunctional  kinase domain, short homology just upstream of kinase domain."	5928	NULL	NULL	NULL	http://plantdev.bio.wzw.tum.de/research	Schneitz Lab Website
NULL	MADS-box Transcription Factor Family	PISTILLATA	PI	NULL	At5g20240	NULL	D30807	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	APETALA3	AP3	NULL	At3g54340	NULL	M86357	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGAMOUS	AG	NULL	At4g18960	NULL	X53579	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL1	SHP1	NULL	At3g58780	NULL	M55550	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL2	1-Sep	NULL	At5g15800	NULL	M55551	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL3	4-Sep	NULL	At2g03710	NULL	U81369	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL4	2-Sep	NULL	At3g02310	NULL	M55552	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL5	SHP2	NULL	At2g42830	NULL	M55553	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL6	NULL	NULL	At2g45650	NULL	M55554	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL7	AP1	NULL	At1g69120	NULL	Z16421	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL8	FUL	NULL	At5g60910	NULL	U33473	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL9	3-Sep	NULL	At1g24260	NULL	AF015552	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL10	CAL	NULL	At1g26310	NULL	L36925	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL11	STK	NULL	At4g09960	NULL	U20182	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL12	NULL	NULL	At1g71692	NULL	U20193	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL13	NULL	NULL	At3g61120	NULL	U20183	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL14	NULL	NULL	At4g11880	NULL	U20184	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL15	NULL	NULL	At5g13790	NULL	U20185	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL16	NULL	NULL	At3g57230	NULL	NM_115583	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL17	NULL	NULL	At2g22630	NULL	NM_127828	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL18	NULL	NULL	At3g57390	NULL	AF312663	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL19	NULL	NULL	At4g22950	NULL	AF312664	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL20	SOC1	NULL	At2g45660	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL21	NULL	NULL	At4g37940	NULL	AF336979	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL22	SVP	NULL	At2g22540	NULL	AF211171	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL23	NULL	NULL	At1g65360	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL24	NULL	NULL	At4g24540	NULL	AF005158	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL25	FLC;FLF	NULL	At5g10140	NULL	AF537203	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL26	NULL	NULL	At5g26870	NULL	NM_122569	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL27	MAF1;FLM	NULL	At1g77080	NULL	AF342808	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL28	NULL	NULL	At1g01530	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL29	NULL	NULL	At2g34440	NULL	NM_128996	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL30	NULL	NULL	At2g03060	NULL	NULL	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL31	MAF2	NULL	At5g65050	NULL	AF312667	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL32	ABS;TT16	NULL	At5g23260	NULL	AJ318098	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL33	NULL	NULL	At2g26320	NULL	NULL	none	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL34	NULL	NULL	At5g26580	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL35	NULL	NULL	At5g26630	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL36	NULL	NULL	At5g26650	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL37	PHE1	NULL	At1g65330	NULL	NM_105207	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL38	NULL	NULL	At1g65300	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL39	NULL	NULL	At5g27130	NULL	NM_122595	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL40	NULL	NULL	At4g36590	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL41	NULL	NULL	At2g26880	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL42	NULL	NULL	At5g62165	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL43	NULL	NULL	At5g40220	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL44	ANR1	NULL	At2g14210	NULL	Z97057	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL45	NULL	NULL	At3g05860	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL46	NULL	NULL	At2g28700	NULL	NM_128431	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL47	NULL	NULL	At5g55690	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL48	NULL	NULL	At2g40210	NULL	NM_129579	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL49	NULL	NULL	At1g60040	NULL	NM_104696	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL50	NULL	NULL	At1g59810	NULL	NM_104674	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL51	NULL	NULL	At4g02235	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL52	NULL	NULL	At4g11250	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL53	NULL	NULL	At5g27070	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL54	NULL	NULL	At5g27090	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL55	NULL	NULL	At1g60920	NULL	NM_104772	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL56	NULL	NULL	At1g60880	NULL	NM_104769	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL57	NULL	NULL	At3g04100	NULL	NM_111281	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL58	NULL	NULL	At1g28450	NULL	NM_102613	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL59	NULL	NULL	At1g28460	NULL	NM_102614	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL60	NULL	NULL	At1g72350	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL61	NULL	NULL	At2g24840	NULL	NM_128043	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL62	NULL	NULL	At5g60440	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL63	NULL	NULL	At1g31140	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL64	NULL	NULL	At1g29960	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL65	NULL	NULL	At1g18750	NULL	NULL	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL66	NULL	NULL	At1g77980	NULL	NULL	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL67	NULL	NULL	At1g77950	NULL	NM_106444	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL68	MAF5	NULL	At5g65080	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL69	MAF4	NULL	At5g65070	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL70	MAF3	NULL	At5g65060	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL71	NULL	NULL	At5g51870	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL72	NULL	NULL	At5g51860	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL73	NULL	NULL	At5g38620	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL74	NULL	NULL	At1g48150	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL75	NULL	NULL	At5g41200	NULL	NM_123485	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL76	NULL	NULL	At5g40120	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL77	NULL	NULL	At5g38740	NULL	NM_123235	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL78	NULL	NULL	At5g65330	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL79	NULL	NULL	At3g30260	NULL	NULL	MIKC	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL80	NULL	NULL	At5g48670	NULL	NM_124244	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL81	NULL	NULL	At5g39750	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL82	NULL	NULL	At5g58890	NULL	NM_125279	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL83	NULL	NULL	At5g49490	NULL	NM_124326	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL84	NULL	NULL	At5g49420	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL85	NULL	NULL	At1g54760	NULL	NM_104351	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL86	NULL	NULL	At1g31630	NULL	NM_102898	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL87	NULL	NULL	At1g22590	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL88	NULL	NULL	At2g11990	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL89	NULL	NULL	At5g27580	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL90	NULL	NULL	At5g27960	NULL	NULL	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL91	NULL	NULL	At3g66656	NULL	NM_111544	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL92	NULL	NULL	At1g31640	NULL	NM_102899	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL93	NULL	NULL	At5g26950	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL94	NULL	NULL	At1g69540	NULL	NM_105623	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL95	NULL	NULL	At2g15660	NULL	NM_127127	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL96	NULL	NULL	At5g06500	NULL	NM_120733	M gamma	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL97	NULL	NULL	At1g46408	NULL	NM_103604	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL98	NULL	NULL	At5g39810	NULL	NM_123344	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL99	NULL	NULL	At5g04640	NULL	NM_120546	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL100	NULL	NULL	At1g17310	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL101	NULL	NULL	At5g27050	NULL	NM_122587	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL102	NULL	NULL	At1g47760	NULL	NULL	M alpha	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL103	NULL	NULL	At3g18650	NULL	NM_112751	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL104	NULL	NULL	At1g22130	NULL	NM_102063	M delta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MADS-box Transcription Factor Family	AGL105	NULL	NULL	At5g37420	NULL	NULL	M beta	NULL	"We exploited a hidden Markov model that produces a profile out of a multiple sequence alignment. A profile for MADS-box proteins was built to screen the Arabidopis genome to identify new members of this family. Only hits with a E value of <1 were considered to be members of the family. This analysis resulted in 107 MADS-box proteins, which could be sub-divided in type-I (Malpha, Mbeta, Mgamma) and type-II (MIKC, Mdelta) family members."	1501418015	NULL	501707748	12837945	NULL	NULL
NULL	MIP family	NULL	NULL	F4I18.6	AT2G45960	18406935	NM_130159	aquaporin (plasma membrane intrinsic protein 1B)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F22L4_12	AT1G01620	18378861	NM_100044	"plasma membrane intrinsic protein 1c, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T27A16.3	AT2G29870	18402171	NM_128541	putative aquaporin (plasma membrane intrinsic protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F24I3_30	AT3G56950	18410611	NM_115554	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F24G24_180	AT4G10380	18413329	NM_117106	major intrinsic protein (MIP) - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F28P10_200	AT3G54820	NULL	NULL	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F11O4_1	AT4G01470	18411645	NM_116377	predicted protein of unknown function	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F9I5_3	AT1G52180	18403884	NM_104098	"aquaporin, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	MYA6_6	AT3G16240	18401067	NM_112495	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T6K12_29	AT3G04090	18396769	NM_111280	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F2H15_3	AT1G17810	18394536	NM_101644	"tonoplast intrinsic protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	68069_m00151	AT1G31880	18398170	NM_102925	"major intrinsic protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T31E10.27	AT2G34390	18403539	NM_128991	nodulin-26-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F13C5_80	AT4G18910	18415197	NM_118008	major intrinsic protein (MIP)- like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	K22F20_50	AT5G37810	18421689	NM_123140	Membrane integral protein (MIP) -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T7F6.18	AT2G39010	18404922	NM_129458	putative aquaporin (water channel protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	MNJ7_4	AT5G47450	18422796	NM_124117	membrane channel protein-like; aquaporin (tonoplast intrinsic protein)-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F20L16_10	AT5G18290	18418572	NM_121834	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F17H15.16	AT2G25810	18400949	NM_128141	putative aquaporin (tonoplast intrinsic protein)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F16G20_100	AT4G23400	18416134	NM_118469	water channel - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	M4E13_150	AT4G35100	18418574	NM_119676	plasma membrane intrinsic protein (SIMIP)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	K22F20_60	AT5G37820	18421690	NM_123141	Membrane integral protein (MIP) -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T2N18.7	AT2G37170	18404342	NM_129273	aquaporin (plasma membrane intrinsic protein 2B)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T18K17_14	AT1G73190	18410295	NM_105978	"tonoplast intrinsic protein, alpha (alpha-TIP)"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T2N18.6	AT2G37180	18404345	NM_129274	aquaporin (plasma membrane intrinsic protein 2C)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F12A24.3	AT2G16850	18398234	NM_127238	F26H11.22 putative major intrinsic (channel) protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F2A19_30	AT3G61430	18412005	NM_116008	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	MFE16_3	AT3G26520	NULL	NULL	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F13C5_200	AT4G19030	18415223	NM_118021	nodulin-26 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F23A5_10	AT1G80760	18412895	NM_106724	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F26H11.22	AT2G21020	18399552	NM_127671	putative major intrinsic (channel) protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	dl4705w	AT4G17340	18414865	NM_117838	membrane channel like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F4P12_120	AT3G53420	18409834	NM_115202	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	A_IG005I10_2	AT4G00430	18411331	NM_116268	probable plasma membrane intrinsic protein 1c	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	F28L1_3	AT3G06100	18397471	NM_111485	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	mup24_70	AT5G60660	18424382	NM_125459	mipC protein - like (aquaporin)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T1J8.1	AT2G36830	18404245	NM_129238	putative aquaporin (tonoplast intrinsic protein gamma)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MIP family	NULL	NULL	T21L8_190	AT3G47440	18408427	NM_114612	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MAP Kinase	MPK1	NULL	F14N23.4	AT1G10210	18391125	NM_100895	"putative mitogen-activated protein kinase, MAP Kinase 1"	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK2	NULL	T30E16.13	AT1G59580	18406387	NM_104651	expressed protein	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK3	NULL	F9K21.220	AT3G45640	18408044	NM_114433	mitogen-activated protein kinase 3	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK4	NULL	f2n1.2	AT4G01370	18411617	NM_116367	MAP kinase 4 (MPK4)	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK5	NULL	F8L21.120	AT4G11330	18413508	NM_117204	MAP kinase (ATMPK5)	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK6	NULL	F18O19.10	AT2G43790	18406345	NM_129941	MAP kinase (ATMPK6)	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK7	NULL	F8D23.5	AT2G18170	18398653	NM_127374	MAP kinase (ATMPK7)	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK8	NULL	T10O22.5 	AT1G18150	18394577	NM_101675	"mitogen-activated protein kinase, putative"	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK9	NULL	MRC8.2	AT3G18040	18401749	NM_112686	putative MAP kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK10	NULL	F24G16.60	AT3G59790	NULL	NULL	mitogen-activated protein kinase-like protein	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK11	NULL	F22L4.15	AT1G01560	18378854	NM_100038	"MAP kinase, putative"	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK12	NULL	T3F17.28	AT2G46070	18406967	NM_130170	putative mitogen-activated protein kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK13	NULL	F24B9.3	AT1G07880	18390822	NM_100662	"MAP kinase, putative"	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK14	NULL	C7A10.910	AT4G36450	18419837	NM_119808	MAP kinase like protein	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK15	NULL	F25P22.9	AT1G73670	18410419	NM_106026	putative MAP kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK16	NULL	T16G12.50	AT5G19010	18419793	NM_121906	MAP kinase -like protein	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK17	NULL	F2I9.7	AT2G01450	18379223	NM_126206	putative MAP kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK18	NULL	T3F20.17	AT1G53510	18404501	NM_104229	"MAP kinase ATMPK9, putative"	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK19	NULL	MIE1.22	AT3G14720	18400499	NM_112333	putative MAP kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase	MPK20	NULL	F7D19.12	AT2G42880	18406087	NM_129849	putative MAP kinase	NULL	"The necessary and sufficient criterion used is the presence of the signature TxYVxxRWYRAPEL in the activation domain (also called T-loop) between kinase subdomains VII and VIII, which include the phosphorylated residues TxY. Only MPK3/4/6 were experimentally determined to act biochemically and/or physiologically as MAPKs."	6184;1012626;218;1113137	NULL	1547411;658	11597496;12119167	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK1	NULL	F20B18.180	AT4G26070	18416673	NM_118740	mitogen activated protein kinase kinase (nMAPKK)	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK2	NULL	F27B13.50	AT4G29810	18417472	NM_119127	MAP kinase kinase 2	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK3	NULL	MPO12.150	AT5G40440	18421986	NM_123408	MAP kinase kinase 3 (ATMKK3)	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK4	NULL	F19C24.26	AT1G51660	18403625	NM_104044	MAP kinase kinase 4 (ATMKK4)	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK5	NULL	MXL8.8	AT3G21220	18402927	NM_113017	MAP kinase kinase 5	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK6	NULL	MIK19.2	AT5G56580	18423879	NM_125041	protein kinase MEK1 homolog	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK7	NULL	F15H18.5	AT1G18350	18394598	NM_101693	"MAP kinase kinase 5, putative"	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK8	NULL	F28L1.17	AT3G06230	18397509	NM_111498	putative MAP kinase	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK9	NULL	T9L24.8	AT1G73500	18410373	NM_106009	"MAP kinase, putative"	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
NULL	MAP Kinase Kinase	MKK10	NULL	F27G20.9	AT1G32320	18398379	NM_102965	"MAP kinase, putative"	NULL	The necessary and sufficient criterion used is the presence of the signature GTxxYMSPER in the activation domain (also called T-loop) between kinase subdomains VII and VIII. Only MKK1/4/5 were experimentally determined to act biochemically and/or physiologically as MAPKKs.	6184;1012626;218;1113137	NULL	1547411;658	11597496	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
MAPKKK	MEKK subfamily	MAPKKK1	NULL	F7G19.13	AT1G09000	18390966	NM_100771	putative NPK1-related protein kinase 2	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK2	NULL	F14C21.49	AT1G54960	18405150	NM_104370	NPK1-related protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK3	NULL	T3F20.12	AT1G53570	18404527	NM_104235	"MAP3K alpha protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK4	NULL	F24D7.11	AT1G63700	18407874	NM_105047	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK5	NULL	MUD21.11	AT5G66850	18425120	NM_126084	MAP protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK6	NULL	F17A17.32	AT3G07980	18398121	NM_111677	putative MAP3K epsilon protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK7	NULL	MRP15.15	AT3G13530	18400051	NM_112199	MAP3K epsilon protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK8	NULL	T15F16.5	AT4G08500	18413123	NM_116919	MEKK1/MAP kinase kinase kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK9	NULL	T15F16.3	AT4G08480	18413121	NM_116917	putative mitogen-activated protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK10	NULL	T15F16.2	AT4G08470	18413120	NM_116916	putative mitogen-activated protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK11	NULL	F16J13.90	AT4G12020	18413730	NM_117272	putative disease resistance protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK12	NULL	F24F17.1	AT3G06030	18397449	NM_111477	NPK1-related protein kinase 3	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK13	NULL	F10K1.14	AT1G07150	18390732	NM_100589	"MAP3K gamma protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK14	NULL	F23F1.4	AT2G30040	18402235	NM_128559	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK15	NULL	MCO15.4	AT5G55090	18423707	NM_124891	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK16	NULL	F10M23.230	AT4G26890	18416885	NM_118823	putative NPK1-related protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK17	NULL	T26B15.7	AT2G32510	18402996	NM_128810	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK18	NULL	T7A14.2	AT1G05100	18390480	NM_100389	putative NPK1-related MAP kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK19	NULL	K21H1.4	AT5G67080	18425148	NM_126108	protein kinase-like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK20	NULL	F11C1.150	AT3G50310	18409061	NM_114891	protein kinase -like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	MEKK subfamily	MAPKKK21	NULL	AP22.87	AT4G36950	NULL	NULL	"pseudogene, hypothetical protein"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK1	NULL	T18N14.10	AT3G51630	18409388	NM_115022	MAP kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK2	NULL	MCK7.22	AT5G58350	18424092	NM_125220	AT5G58350	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK3	NULL	MCB17.15	AT3G22420	18403371	NM_113139	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK4	NULL	T9J14.14	AT3G04910	18397050	NM_111363	putative mitogen activated protein kinase kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK5	NULL	MVE11.20	AT3G18750	18401995	NM_112761	"mitogen activated protein kinase kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK6	NULL	MJC20.9	AT5G41990	18422159	NM_123564	MAP kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK7	NULL	F27J15.7	AT1G49160	18402505	NM_103806	"serine/threonine protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK8	NULL	MTE17.22	AT5G55560	18423761	NM_124938	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK9	NULL	T24G3.10	AT5G28080	18421192	NM_122691	mitogen activated protein kinase - like	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK10	NULL	F1N19.20	AT1G64630	18408094	NM_105138	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	ZIK subfamily	ZIK11	NULL	T29H11.220	AT3G48260	NULL	NULL	Expressed protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	CTR1	RAF1	F17C15.150	AT5G03730	18414326	NM_120454	SERINE/THREONINE-PROTEIN KINASE CTR1	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	EDR1	RAF2	F22O13.20	AT1G08720	18390930	NM_100745	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF3	NULL	F14F18.20	AT5G11850	18416691	NM_121223	MAP3K delta-1 protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF4	NULL	T10O22.13	AT1G18160	18394578	NM_101676	"MAP kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF5	NULL	F25P22.8	AT1G73660	18410418	NM_106025	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF6	NULL	T22A6.310	AT4G24480	18416358	NM_118581	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF7	NULL	F5E6.5	AT3G06620	18397635	NM_111538	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF8	NULL	F5E6.4	AT3G06630	18397639	NM_111539	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF9	NULL	F5E6.3	AT3G06640	18397644	NM_111540	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF10	NULL	K7J8.16	AT5G49470	18423030	NM_124324	protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF11	NULL	T23K23.26	AT1G67890	18408888	NM_105459	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF12	NULL	F7H19.240	AT4G23050	18416059	NM_118434	putative serine/threonine kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF13	NULL	F7F1.22	AT2G31010	18402526	NM_128655	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF14	NULL	F14N22.10	AT2G42630	18406020	NM_129824	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF15	NULL	F14P22.230	AT3G58640	18411000	NM_115726	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF16	NULL	T1G11.5	AT1G04700	18390428	NM_100350	putative Ser/Thr protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF17	NULL	F7A19.9	AT1G14000	18394057	NM_101266	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF18	NULL	F3O9.7	AT1G16270	18394342	NM_101493	putative Ser/Thr protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF19	NULL	F24O1.13	AT1G62400	18407576	NM_104920	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF20	NULL	T8K14.1	AT1G79570	18412428	NM_106605	hypothetical protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF21	NULL	T17A5.2	AT2G17700	18398506	NM_127324	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF22	NULL	T28I24.9	AT2G24360	18400527	NM_127998	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF23	NULL	F20M17.16	AT2G31800	18402774	NM_128738	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF24	NULL	F19I3.28	AT2G35050	18403729	NM_129057	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF25	NULL	F18O19.4	AT2G43850	18406369	NM_129947	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF26	NULL	FCAALL.308	AT4G14780	18414313	NM_117563	kinase like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF27	NULL	F13C5.120	AT4G18950	18415204	NM_118012	protein kinase - like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF28	NULL	F6E21.90	AT4G31170	18417750	NM_119267	protein kinase - like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF29	NULL	F8D20.290	AT4G35780	18419665	NM_119744	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF30	NULL	F22I13.1	AT4G38470	18420243	NM_120008	protein kinase like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF31	NULL	T20L15.120	AT5G01850	18413767	NM_120263	protein kinase ATN1-like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF32	NULL	MNF13.60	AT5G40540	18421996	NM_123418	protein kinase - like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF33	NULL	K6A12.4	AT5G50000	18423094	NM_124379	protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF34	NULL	K6A12.4	AT5G50180	18423115	NM_124397	protein kinase ATN1-like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF35	NULL	MUA2.19	AT5G57610	18423998	NM_125142	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF36	NULL	K19M22.20	AT5G58950	18424174	NM_125285	protein kinase 6 - like	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF37	NULL	MSN2.10	AT5G66710	18425104	NM_126069	protein kinase ATN1-like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF38	NULL	F4P13.4	AT3G01490	18395835	NM_111015	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF39	NULL	MWI23.12	AT3G22750	18403506	NM_113174	expressed protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF40	NULL	K7P8.1	AT3G24720	18404309	NM_113384	"protein kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF41	NULL	MMJ24.11	AT3G27560	18405437	NM_113672	"putative protein kinase, ATN1"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF42	NULL	T6H20.50	AT3G46920	18408312	NM_114559	protein kinase - like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF43	NULL	T6H20.40	AT3G46930	NULL	NULL	protein kinase 6-like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF44	NULL	T3A5.100	AT3G50720	18409168	NM_114932	protein kinase ATN1 -like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF45	NULL	T3A5.110	AT3G50730	18409170	NM_114933	protein kinase ATN1 - like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF46	NULL	F24G16.100	AT3G59830	18411347	NM_115845	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF47	NULL	T20N10.110	AT3G58760	18411023	NM_115738	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
MAPKKK	Raf subfamily	RAF48	NULL	F16M2.110	AT3G63260	18412692	NM_116191	ATMRK1	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K1	NULL	F8L10.20	AT1G53165	18404354	NM_104195	"MAP kinase BnMAP4K alpha1, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K2	NULL	MAP4K2	AT3G15220	18400678	NM_112385	putative MAP kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K3	NULL	F23O10.20	AT1G69220	18409219	NM_105589	putative serine threonine kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K4	NULL	T9L3.20	AT5G14720	18417456	NM_121476	protein kinase -like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K5	NULL	T19F6.90	AT4G24100	18416274	NM_118542	putative protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K6	NULL	T12H20.4	AT4G10730	18413373	NM_117141	putative protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K7	NULL	F17O7.3	AT1G70430	18409547	NM_105711	"Ste-20 related kinase SPAK, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K8	NULL	F20B17.7	AT1G79640	18412457	NM_106613	"kinase, putative"	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K9	NULL	F5O8.25	AT1G23700	18395273	NM_102218	putative Ser/Thr protein kinase	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	MAPKKKK	MAP4K10	NULL	FCAALL.219	AT4G14480	18414231	NM_117528	kinase like protein	NULL	Characteristic sequence motifs	1213417;7034	NULL	NULL	NULL	http://www2.rhul.ac.uk/~ujba110/MAPK.htm	"MAPK, MAPKK, MAPKKK, MAPKKKK"
NULL	Adenine phosphoribosyltransferase 1 APRT family	NULL	NULL	F18B13_14	AT1G80050	18412610	NM_106654	adenine phosphoribosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Adenine phosphoribosyltransferase 1 APRT family	NULL	NULL	F2I11_50	AT5G11160	18416484	NM_121154	adenine phosphoribosyltransferase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Adenine phosphoribosyltransferase 1 APRT family	NULL	NULL	F17L21_25	AT1G27450	18396343	NM_102509	"adenine phosphoribosyltransferase 1, APRT"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similarity to Triticum ABA induced membrane protein family	NULL	NULL	T1G11_18	AT1G04560	18390407	NM_100335	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similarity to Triticum ABA induced membrane protein family	NULL	NULL	K11I1_12	AT5G46530	18422684	NM_124023	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similarity to Triticum ABA induced membrane protein family	NULL	NULL	T16G12_10	AT5G18970	18419783	NM_121902	plasma membrane associated protein -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similarity to Triticum ABA induced membrane protein family	NULL	NULL	F15D2_10	AT1G29520	18397127	NM_102692	"plasma membrane associated protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alpha/beta hydrolase fold family	NULL	NULL	F5I6_3	AT1G80280	18412741	NM_106677	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alpha/beta hydrolase fold family	NULL	NULL	T16N11_23	AT1G15490	18394251	NM_101418	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alpha/beta hydrolase fold family	NULL	NULL	F14G24_2	AT1G52750	18404170	NM_104153	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F13M7_22	AT1G04760	18390432	NM_100354	"synaptobrevin 7B, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F2I11_40	AT5G11150	18416481	NM_121153	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F24B22_260	AT3G54300	18410040	NM_115290	synaptobrevin -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	MWD9_16	AT5G22360	18420468	NM_122141	synaptobrevin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F24L7.19	AT2G32670	18403041	NM_128826	putative synaptobrevin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	T22F11.7	AT2G25340	18400801	NM_128091	putative synaptobrevin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F25I18.14	AT2G33120	18403193	NM_128872	putative synaptobrevin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	F10N7_40	AT4G32150	18417951	NM_119367	synaptobrevin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Synaptobrevin -like protein family	NULL	NULL	T1G11_1	AT1G04740	NULL	NULL	putative auxin-induced protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	K10D20_10	AT3G20570	18402673	NM_112949	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	K19P17_3	AT5G53870	18423564	NM_124766	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F27J15_27	AT1G48940	18402427	NM_103787	"phytocyanin, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F27H5_60	AT3G60270	18411549	NM_115891	stellacyanin (uclacyanin 3) - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F27H5_70	AT3G60280	18411551	NM_115892	uclacyanin 3	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	T29A15_10	AT4G27520	18417008	NM_118887	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F5O24_120	AT5G20230	18420153	NM_122030	blue copper binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	T16B12.14	AT2G31050	18402540	NM_128660	putative blue copper-binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	T4P13_25	AT3G01070	18395694	NM_110972	putative lamin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	T29E15.19	AT2G23990	18400428	NM_127961	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	T32F6.18	AT2G32300	18402929	NM_128789	putative uclacyanin I	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F27C12.2	AT2G25060	18400710	NM_128063	putative peroxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F17I23_70	AT4G30590	18417624	NM_119205	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F8M21_240	AT5G15350	18417637	NM_121539	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F11C18_40	AT4G31840	18417889	NM_119334	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	K24M9_8	AT3G18590	18401940	NM_112745	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F18A8.9	AT2G26720	18401218	NM_128229	putative phytocyanin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F8B4_190	AT4G32490	18418023	NM_119401	nodulin - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F20B17_22	AT1G79800	18412515	NM_106629	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F9D12_16	AT5G26330	18421014	NM_122534	copper binding - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	F12K8_17	AT1G22480	18395122	NM_102097	"uclacyanin II, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Blue copper binding protein family	NULL	NULL	K17E12_2	AT3G27200	18405268	NM_113634	blue copper protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Secretory carrier membrane protein family	NULL	NULL	T12O21_5	AT1G32050	18398245	NM_102939	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Secretory carrier membrane protein family	NULL	NULL	F11P17_4	AT1G61250	18407094	NM_104806	secretory carrier membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Secretory carrier membrane protein family	NULL	NULL	T28P6_13	AT1G11180	18391244	NM_100990	secretory carrier membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Secretory carrier membrane protein family	NULL	NULL	F21B7_17	AT1G03550	18379110	NM_100237	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Secretory carrier membrane protein family	NULL	NULL	F5H14.19	AT2G20840	18399500	NM_127653	putative secretory carrier-associated membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	F4F15_80	AT3G51970	18409462	NM_115056	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_3	AT5G55320	18423734	NM_124914	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_4	AT5G55330	18423735	NM_124915	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_5	AT5G55340	18423736	NM_124916	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_6	AT5G55350	18423737	NM_124917	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_7	AT5G55360	18423738	NM_124918	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_8	AT5G55370	18423739	NM_124919	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MTE17_9	AT5G55380	18423740	NM_124920	wax synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	F12K21_14	AT1G34520	18399310	NM_103174	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	F12K21_16	AT1G34500	18399299	NM_103172	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	F12K21_17	AT1G34490	18399290	NM_103171	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Wax synthase-like protein family	NULL	NULL	MFG13_13	AT5G51420	18423277	NM_124521	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Germin-like protein family	NULL	NULL	MXF12_140	AT5G39130	18421833	NM_123275	germin - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Germin-like protein family	NULL	NULL	K3K3_10	AT5G39160	18421836	NM_123278	germin-like protein (GLP2a) copy1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Germin-like protein family	NULL	NULL	F10A16_23	AT3G05930	18397411	NM_111467	germin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Germin-like protein family	NULL	NULL	T1M15_30	AT5G20630	18420270	NM_122070	germin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Germin-like protein family	NULL	NULL	F28P22_20	AT1G72610	18410135	NM_105920	germin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	MGN6_12	AT5G53760	18423549	NM_124755	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	F18N11_50	AT3G45290	18407954	NM_114398	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T24P13_7	AT1G26700	18396018	NM_102433	"Mlo protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T16B24.16	AT2G39200	18404978	NM_129478	similar to Mlo proteins from H. vulgare	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T25B24_9	AT1G61560	18407233	NM_104836	"Mlo protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	F5J6.19	AT2G17430	18398429	NM_127298	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	MJB20.4	AT2G17480	18398443	NM_127302	similar to Mlo proteins from H. vulgare	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	F8D11_2	AT1G42560	18400676	NM_103440	pseudogene	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T22A6_80	AT4G24250	18416310	NM_118558	Mlo-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	K2A18_3	AT5G65970	18425014	NM_125994	Mlo protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	F4P9.44	AT2G33670	18403339	NM_128925	putative thioredoxin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T28P6_23	AT1G11310	18391262	NM_101004	"Mlo protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	F6E13.24	AT2G44110	18406453	NM_129974	similar to Mlo proteins from H. vulgare	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to Mlo proteins family	NULL	NULL	T10P11_12	AT4G02600	18411989	NM_116494	AtMlo-h1-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Root Cap 1	NULL	NULL	K3M16_90	AT5G17520	18418328	NM_121758	root cap 1 (RCP1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F10E10_8	AT5G46600	18422691	NM_124030	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F10E10_9	AT5G46610	18422692	NM_124031	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F2J7_18	AT1G25480	18395690	NM_102359	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F15H18_11	AT1G18420	18394605	NM_101700	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F24J5_14	AT1G68600	18409072	NM_105532	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	T27G7_22	AT1G08430	18390893	NM_100716	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	T27G7_25	AT1G08440	18390894	NM_100717	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	MJB20.3	AT2G17470	18398440	NM_127301	putative RING zinc finger protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	A_TM018A10_3	AT4G00910	18411476	NM_116318	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	MYF24_15	AT3G18440	18401889	NM_112729	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	T19F11_8	AT3G11680	18399313	NM_112000	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	AT4G17585	AT4G17585	18414923	NM_117866	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	T6K21_150	AT4G17970	18414999	NM_117907	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Bax inhibitor-1 / TEGT protein homolog family	NULL	NULL	F12K2.18	AT2G27240	18401364	NM_128282	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F4F15_270	AT3G52160	18409501	NM_115076	beta-ketoacyl-CoA synthase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T3A4.10	AT2G46720	18407149	NM_130237	putative extensin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F10M10_20	AT4G34250	18418411	NM_119589	fatty acid elongase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T4L20_90	AT4G34510	18418463	NM_119616	putative ketoacyl-CoA synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T4L20_100	AT4G34520	18418464	NM_119617	fatty acid elongase 1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T15J14.13	AT2G15090	18397720	NM_127071	putative fatty acid elongase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F2J7_9	AT1G25450	18395678	NM_102356	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F16F14.22	AT2G16280	18398069	NM_127184	putative beta-ketoacyl-CoA synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T26J14_10	AT1G68530	18409055	NM_105524	very-long-chain fatty acid condensing enzyme (CUT1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F18O14_5	AT1G19440	18394739	NM_101800	very-long-chain fatty acid condensing enzyme CUT1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F14P13_12	AT3G10280	18398820	NM_111863	putative fatty acid elongase 3-ketoacyl-CoA synthase 1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	MQD19_11	AT5G43760	18422369	NM_123743	beta-ketoacyl-CoA synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	T1D16.11	AT2G26250	18401068	NM_128182	beta-ketoacyl-CoA synthase (FIDDLEHEAD)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F18A8.1	AT2G26640	18401198	NM_128221	putative beta-ketoacyl-CoA synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Strong similarity to beta-keto-Coa synthase family	NULL	NULL	F20D22_1	AT1G04220	18379290	NM_100303	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	MMM17_22	AT3G13772	18400156	NM_112228	multispanning membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T1P17_240	AT4G12650	18413844	NM_117335	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T30N20_110	AT5G10840	18416391	NM_121122	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	F14H20.4	AT2G01970	18391538	NM_126258	putative endosomal protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T25C13_40	AT5G35160	18421428	NM_122907	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	F27D4.8	AT2G24170	18400473	NM_127978	unknown protein AT2G01970 F14H20.4 putative endosomal protein AT2G26640 F18A8. putative beta-ketoacyl-CoA synthase AT2G26250 T1D16.11 beta-ketoacyl-CoA synthase (FIDDLEHEAD)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T27G7_4	AT1G08350	18390881	NM_100708	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	MNJ8_100	AT5G37310	18421633	NM_123090	multispanning membrane protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T11H3_110	AT5G25100	18420879	NM_122419	putative multispanning membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T19D16_13	AT1G10950	18391221	NM_100970	endomembrane protein EMP70 precusor isolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	F10B6_21	AT1G14670	18394144	NM_101334	"endomembrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative endosomal protein family	NULL	NULL	T7N22_7	AT1G55130	18405227	NM_104386	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	MZA15_11	AT5G46700	18422703	NM_124040	senescence-associated protein 5-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	T13J8_160	AT4G28050	18417116	NM_118944	senescence-associated protein -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	F15H18_22	AT1G18520	18394620	NM_101710	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	F27L4.1	AT2G23810	18400383	NM_127944	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	T18C20.4	AT2G03840	18395617	NM_126430	putative senescence-associated protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	MYJ24_2	AT5G23030	18420630	NM_122209	senescence-associated protein 5-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	F17I23_230	AT4G30430	18417592	NM_119189	senescence-associated protein homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	F16G20_110	AT4G23410	18416135	NM_118470	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	F3P11.18	AT2G19580	18399083	NM_127516	putative senescence-associated protein 5	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	T21B14_110	AT3G12090	18399475	NM_112043	senescence-assocated protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Senescence-associated protein homolog family	NULL	NULL	f15l12_80	AT5G60220	18424332	NM_125415	senescence-associated protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	T20F21.16	AT2G35650	18403913	NM_129120	putative glucosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F5O8_4	AT1G23480	18395246	NM_102197	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	MIG10_4	AT3G28180	18405676	NM_113737	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	T9E8_150	AT4G13410	18414002	NM_117415	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	T23E23_17	AT1G24070	18395380	NM_102254	glucosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F21O3_4	AT3G07330	18397915	NM_111612	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F17C15_180	AT5G03760	18414339	NM_120457	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F1K3_3	AT4G07960	18413062	NM_116866	putative glucosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	MDJ22_16	AT5G22740	18420597	NM_122180	glucosyltransferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F25P17.7	AT2G24630	18400594	NM_128024	putative glucosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F27K19_180	AT3G56000	18410402	NM_115458	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	dl4320w	AT4G16590	18414700	NM_117760	cellulose synthase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glucosyltransferase family	NULL	NULL	F28M20_220	AT4G31590	18417836	NM_119308	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glucosyltransferase like protein family	NULL	NULL	T20F21.10	AT2G35710	18403929	NM_129126	putative glycogenin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glucosyltransferase like protein family	NULL	NULL	dl4325w	AT4G16600	18414703	NM_117761	glucosyltransferase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F8J2_20	AT3G52850	18409710	NM_115145	Spot 3 protein and vacuolar sorting receptor homolog/AtELP1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F18F4_210	AT4G20110	18415439	NM_118130	vacuolar sorting receptor-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	T9D9.10	AT2G30290	18402311	NM_128582	putative vacuolar sorting receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F26C24.14	AT2G14720	18397609	NM_127036	putative vacuolar sorting receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F26C24.12	AT2G14740	18397614	NM_127038	putative vacuolar sorting receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F17F8_23	AT1G30900	18397711	NM_102827	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Vacuolar sorting receptor family	NULL	NULL	F19I3.17	AT2G34940	18403697	NM_129047	putative vacuolar sorting receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Fructose-bisphosphate aldolase family	NULL	NULL	F8J2_100	AT3G52930	18409725	NM_115153	fructose bisphosphate aldolase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Fructose-bisphosphate aldolase family	NULL	NULL	F17C15_110	AT5G03690	18414311	NM_120450	fructose-bisphosphate aldolase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nuclear envelope membrane protein-like family	NULL	NULL	F8J2_111	AT3G52940	18409726	NM_115154	nuclear envelope membrane protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nuclear envelope membrane protein-like family	NULL	NULL	F11F12_22	AT1G50430	18403071	NM_103926	sterol delta7 reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nucleotide sugar epimerase -like family	NULL	NULL	T4C9_90	AT4G12250	18413773	NM_117295	nucleotide sugar epimerase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nucleotide sugar epimerase -like family	NULL	NULL	F22M8_12	AT1G02000	18378908	NM_100080	nucleotide sugar epimerase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nucleotide sugar epimerase -like family	NULL	NULL	F14O13_1	AT3G23820	18403910	NM_113287	NAD dependent epimerase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nucleotide sugar epimerase -like family	NULL	NULL	F6N15_16	AT4G00110	18411227	NM_116228	putative nucleotide sugar epimerase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	F19G10_4	AT1G23020	18395191	NM_102150	putative superoxide-generating NADPH oxidase flavocytochrome	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	F22L4_8	AT1G01580	18378857	NM_100040	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	F22L4_9	AT1G01590	18378858	NM_100041	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	K2I5_9	AT5G49730	18423060	NM_124351	FRO2-like protein; NADPH oxidase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	K2I5_10	AT5G49740	18423061	NM_124352	FRO1-like protein; NADPH oxidase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	K6A12_2	AT5G50160	18423113	NM_124395	FRO1 and FRO2-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	MZF18_14	AT5G23980	18420736	NM_122303	FRO2 homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	FRO1-like protein; NADPH oxidase-like family	NULL	NULL	MZF18_13	AT5G23990	18420737	NM_122304	FRO2 homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	F16L2_20	AT3G45810	18408076	NM_114450	respiratory burst oxidase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	MCA23_25	AT5G47910	18422850	NM_124165	respiratory burst oxidase protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	T29M8_8	AT1G19230	18394711	NM_101781	"respiratory burst oxidase protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	F7G19_27	AT1G09090	18390979	NM_100780	putative respiratory burst oxidase protein B	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	K3K7_25	AT5G51060	18423231	NM_124485	respiratory burst oxidase protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	T2I1_100	AT5G07390	18415480	NM_120821	respiratory burst oxidase protein A	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	F22C12_8	AT1G64060	18407958	NM_105079	"cytochrome b245 beta chain homolog RbohAp108, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	F13M23_230	AT4G25090	18416482	NM_118641	respiratory burst oxidase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	mmn10_230	AT5G60010	18424309	NM_125394	respiratory burst oxidase protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Respiratory burst oxidase family	NULL	NULL	F8L21_20	AT4G11230	18413489	NM_117194	respiratory burst oxidase homolog F - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	F26H11.5	AT2G21190	18399618	NM_127690	putative ER lumen protein retaining receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	F10A5_13	AT1G75760	18410926	NM_106226	"ER lumen protein retaining receptor, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	T20H2_23	AT1G19970	18394807	NM_101852	ER lumen protein-retaining receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	K3G3_5	AT3G25040	18404389	NM_113408	ER lumen retaining receptor (HDEL receptor)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	MJL12_10	AT3G25160	18404442	NM_113420	ER lumen protein retaining receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	T9A14_70	AT4G38790	18420308	NM_120039	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ER lumen protein retaining receptor family	NULL	NULL	F15D2_26	AT1G29330	18397048	NM_102673	ER lumen protein retaining receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative kinesin heavy chain family	NULL	NULL	F3K23.14	AT2G21380	18399674	NM_127709	putative kinesin heavy chain	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative kinesin heavy chain family	NULL	NULL	F15M7_20	AT5G06670	18415280	NM_120750	kinesin heavy chain-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative kinesin heavy chain family	NULL	NULL	F19H22_150	AT4G39050	18420367	NM_120065	kinesin like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	F18F4_20	AT4G19920	18415403	NM_118110	downy mildew resistance-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	T8F5_18	AT1G65390	18408270	NM_105213	"disease resistance protein RPS4, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	T8L23_14	AT1G57670	18406022	NM_104564	disease resistance protein RPS4	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	F12K22_13	AT1G57830	18406097	NM_104577	"disease resistance protein RPS4, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	K21C13_8	AT5G44900	18422494	NM_123858	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	K21C13_9	AT5G44910	18422495	NM_123859	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	K21C13_10	AT5G44920	18422496	NM_123860	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Downy mildew resistance-like protein family	NULL	NULL	K18C1_10	AT5G45220	18422527	NM_123890	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH-like protein family	NULL	NULL	T9I4.16	AT2G29080	18401942	NM_128465	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH-like protein family	NULL	NULL	F13I12_110	AT3G47060	18408351	NM_114573	FtsH metalloprotease - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH-like protein family	NULL	NULL	F16B3_8	AT3G02450	18396194	NM_111112	cell division protein FtsH-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH-like protein family	NULL	NULL	k19m22_70	AT5G58870	18424165	NM_125277	cell division protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH-like protein family	NULL	NULL	MFH8_11	AT5G53170	18423479	NM_124696	cell division protein FtsH protease-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.47	AT2G29150	18401959	NM_128472	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.33	AT2G29290	18402001	NM_128483	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.31	AT2G29310	18402005	NM_128485	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.30	AT2G29320	18402010	NM_128486	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.29	AT2G29330	18402013	NM_128487	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F16P2.28	AT2G29340	18402016	NM_128488	putative tropinone reductase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	F22G5_16	AT1G07440	18390769	NM_100618	tropinone reductase-I	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative tropinone reductase family	NULL	NULL	T1J24_9	AT4G05530	18412958	NM_116791	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AtRER1C family	NULL	NULL	F2G1.13	AT2G21600	18399748	NM_127731	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AtRER1C family	NULL	NULL	T20D16.6	AT2G23310	18400233	NM_127895	putative integral membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AtRER1C family	NULL	NULL	T30D6.25	AT2G18240	18398678	NM_127381	putative integral membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	AtRER1C family	NULL	NULL	T22F8_120	AT4G39220	18420400	NM_120082	AtRer1A	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Calnexin homolog family	NULL	NULL	mac9_90	AT5G61790	18424509	NM_125573	calnexin - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Calnexin homolog family	NULL	NULL	T2I1_50	AT5G07340	18415466	NM_120816	calnexin homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative expansin family	NULL	NULL	T9I4.3	AT2G28950	18401907	NM_128454	putative expansin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative expansin family	NULL	NULL	T1E22_20	AT5G02260	18413875	NM_120304	expansin precursor - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative expansin family	NULL	NULL	F13M22.14	AT2G37640	18404489	NM_129320	putative expansin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alternative oxidase family	NULL	NULL	MGF10_2	AT3G27620	18405460	NM_113678	alternative oxidase 1c precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alternative oxidase family	NULL	NULL	F27G20_12	AT1G32350	18398394	NM_102968	oxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alternative oxidase family	NULL	NULL	MCB17_9	AT3G22360	18403354	NM_113134	alternative oxidase 1b precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alternative oxidase family	NULL	NULL	MCB17_10	AT3G22370	18403359	NM_113135	alternative oxidase 1a precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alternative oxidase family	NULL	NULL	MSJ1_5	AT5G64210	18424800	NM_125817	alternative oxidase 2 (sp|O22049)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	T22P11_210	AT5G02620	18413978	NM_120340	ankyrin - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F3F20_9	AT1G05640	18390552	NM_100444	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	T8O11.15	AT2G01680	18379276	NM_126229	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F24B9_17	AT1G07710	18390802	NM_100645	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F20M17.14	AT2G31820	18402778	NM_128740	ankyrin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F11F8_13	AT3G09550	18398553	NM_111789	putative ankyrin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	T2E22_133	AT3G12360	18399581	NM_112071	ankyrin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	mgo3_40	AT5G60070	18424315	NM_125400	ankyrin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	K5F14_6	AT5G54710	18423660	NM_124852	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F12G12_160	AT1G34050	18399109	NM_103127	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	MPF21_16	AT5G50140	18423111	NM_124393	ankyrin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-like protein family	NULL	NULL	F14N23_22	AT1G10340	18391142	NM_100908	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	MRB17_11	AT5G54610	18423648	NM_124842	ankyrin-repeat-containing protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	MRB17_12	AT5G54620	18423649	NM_124843	ankyrin-repeat-containing protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	T20K14_110	AT5G15500	18417693	NM_121554	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	T12H20_11	AT4G10720	18413372	NM_117140	putative ankyrin-repeat-containing protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	F14L17_30	AT1G14480	18394123	NM_101315	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ankyrin-repeat-containing protein-like family	NULL	NULL	F14L17_24	AT1G14500	18394125	NM_101317	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Carnitine racemase like family	NULL	NULL	F5I14_5	AT1G65520	18408304	NM_105226	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Carnitine racemase like family	NULL	NULL	dl3260c	AT4G14440	18414217	NM_117523	carnitine racemase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MSN9_160	AT5G40260	18421964	NM_123390	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	T21E2_2	AT3G14770	18400516	NM_112338	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MQB2_150	AT5G62850	18424638	NM_125680	LIM7 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	F4N21_10	AT1G66770	NULL	NULL	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	T19L5_130	AT5G13170	18416980	NM_121320	senescence-associated protein (SAG29)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	T7F6.23	AT2G39060	18404935	NM_129463	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MGL6_14	AT3G16690	18401216	NM_112542	MtN3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	T8P19_250	AT3G48740	18408694	NM_114733	MTN3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	dl4000c	AT4G15920	18414549	NM_117684	cytochrome c oxidoreductase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MFB16_19	AT5G50790	18423198	NM_124457	MtN3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	K7B16_1	AT5G50800	18423199	NM_124458	MtN3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MQM1_8	AT5G23660	18420701	NM_122271	MtN3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	F24J8_29	AT1G21460	18394991	NM_101997	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	F13M23_150	AT4G25010	18416467	NM_118633	MtN3 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	F25I24_60	AT4G10850	18413387	NM_117154	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MTN3-like protein family	NULL	NULL	MFH8_13	AT5G53190	18423482	NM_124698	MtN3 protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Disease resistance protein family	NULL	NULL	F9E11_4	AT1G74190	18410555	NM_106079	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Disease resistance protein family	NULL	NULL	F9E11_6	AT1G74180	18410553	NM_106078	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Disease resistance protein family	NULL	NULL	T4D2_170	AT3G53240	18409800	NM_115184	disease resistance - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	3-hydroxyisobutyryl-coenzyme A hydrolase family	NULL	NULL	T8B10_170	AT3G60510	18411629	NM_115915	enoyl-CoA-hydratase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	3-hydroxyisobutyryl-coenzyme A hydrolase family	NULL	NULL	T11J7.4	AT2G30650	18402418	NM_128617	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	3-hydroxyisobutyryl-coenzyme A hydrolase family	NULL	NULL	K14B20_11	AT5G65940	18425010	NM_125991	3-hydroxyisobutyryl-coenzyme A hydrolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ribophorin I family	NULL	NULL	T8O11.11	AT2G01720	18379284	NM_126233	putative ribophorin I	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ribophorin I family	NULL	NULL	F15M4_10	AT1G76400	18411096	NM_106289	putative ribophorin I (dolichyl-diphosphooligosaccharide-protein glycosyltransferase)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cinnamyl alcohol dehydrogenase family	NULL	NULL	M4I22_60	AT4G27250	18416952	NM_118859	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cinnamyl alcohol dehydrogenase family	NULL	NULL	F7K24_190	AT5G19440	18419916	NM_121949	cinnamyl-alcohol dehydrogenase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cinnamyl alcohol dehydrogenase family	NULL	NULL	F14J9_17	AT1G09510	18391030	NM_100822	putative cinnamyl alcohol dehydrogenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	putative RING zinc finger protein family	NULL	NULL	F1M20_5	AT1G74370	18410598	NM_106097	putative RING zinc finger protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	putative RING zinc finger protein family	NULL	NULL	MMF24_2	AT3G29270	18406127	NM_113852	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	putative RING zinc finger protein family	NULL	NULL	F23O10_9	AT1G69330	18409245	NM_105600	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Xyloglucan fucosyltransferase family	NULL	NULL	F1M20_10	AT1G74420	18410610	NM_106102	putative xyloglucan fucosyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Xyloglucan fucosyltransferase family	NULL	NULL	T18E12.12	AT2G03210	18395504	NM_126372	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Xyloglucan fucosyltransferase family	NULL	NULL	F16A14_19	AT1G14070	18394064	NM_101272	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Actin family	NULL	NULL	F5K20_50	AT3G53750	18409907	NM_115235	actin (ACT3)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Actin family	NULL	NULL	T6D20.1	AT2G42100	NULL	NULL	putative actin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative presenilin homolog family	NULL	NULL	F6K5.3	AT2G29900	18402181	NM_128544	putative presenilin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative presenilin homolog family	NULL	NULL	F22O13_18	AT1G08700	18390928	NM_100743	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Reticuline oxidase-like family	NULL	NULL	F21C20_170	AT4G20820	18415571	NM_118200	reticuline oxidase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Reticuline oxidase-like family	NULL	NULL	F22M8_10	AT1G01980	18378905	NM_100078	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Reticuline oxidase-like family	NULL	NULL	T5I8_18	AT1G30730	18397637	NM_102809	putative reticuline oxidase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Reticuline oxidase-like family	NULL	NULL	T5I8_22	AT1G30760	18397652	NM_102813	putative reticuline oxidase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ethylene-regulated nuclear protein ERT2-like family	NULL	NULL	T13K14_40	AT4G20880	18415583	NM_118206	ethylene-regulated transcript 2 (ERT2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ethylene-regulated nuclear protein ERT2-like family	NULL	NULL	K9L2_14	AT5G44350	18422432	NM_123802	ethylene-regulated nuclear protein ERT2-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Homology to DNAJ heatshock protein family	NULL	NULL	F19K19_23	AT1G16680	18394386	NM_101528	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Homology to DNAJ heatshock protein family	NULL	NULL	K6M13_13	AT5G49580	18423045	NM_124336	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Homology to DNAJ heatshock protein family	NULL	NULL	YUP8H12R_19	AT1G79030	18412232	NM_106554	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ethylene receptor; ERS2 family	NULL	NULL	T27F4_9	AT1G66340	18408489	NM_105305	ethylene-response protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ethylene receptor; ERS2 family	NULL	NULL	K14B15_4	AT3G23150	18403666	NM_113216	ethylene receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ethylene receptor; ERS2 family	NULL	NULL	T20B5.14	AT2G40940	18405553	NM_129658	ethylene response sensor (ERS)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ethylene receptor; ERS2 family	NULL	NULL	F7O18_5	AT3G04580	18396933	NM_111329	putative ethylene receptor (EIN4)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ethylene receptor; ERS2 family	NULL	NULL	F19P19_25	AT1G04310	18379312	NM_100312	putative ethylene receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ubiquitin conjugating enzyme-like family	NULL	NULL	F20D23_1	AT1G17280	18394462	NM_101590	putative amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ubiquitin conjugating enzyme-like family	NULL	NULL	MXI22_15	AT5G50430	18423149	NM_124425	ubiquitin conjugating enzyme-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Ubiquitin conjugating enzyme-like family	NULL	NULL	K14A17_12	AT3G17000	18401337	NM_112576	ubiquitin conjugating enzyme	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative receptor protein kinase family	NULL	NULL	F20D23_5	AT1G17250	18394458	NM_101586	putative receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative receptor protein kinase family	NULL	NULL	F20D23_6	AT1G17240	18394457	NM_101585	putative receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutathione transferase family	NULL	NULL	F20D23_13	AT1G17170	18394449	NM_101578	putative glutathione transferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutathione transferase family	NULL	NULL	F3F9_24	AT1G78360	18411918	NM_106483	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Oligosaccharyl transferase STT3-like family	NULL	NULL	T29J13_110	AT5G19690	18419992	NM_121974	oligosaccharyl transferase STT3-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Oligosaccharyl transferase STT3-like family	NULL	NULL	F12G12_80	AT1G34130	18399142	NM_103136	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Uncoupling protein family	NULL	NULL	T29J13_180	AT5G19760	18420021	NM_121981	oxoglutarate/malate translocator-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Uncoupling protein family	NULL	NULL	F24B22_70	AT3G54110	18409997	NM_115271	uncoupling protein (ucp/PUMP)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Uncoupling protein family	NULL	NULL	k19m22_170	AT5G58970	18424177	NM_125287	uncoupling protein AtUCP2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Uncoupling protein family	NULL	NULL	T5E8_270	AT5G09470	18415989	NM_120984	mitochondrial carrier-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	F12A12_90	AT3G46570	18408229	NM_114524	glucosidase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	F16F14.27	AT2G16230	18398058	NM_127180	"putative beta-1,3-glucanase"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	MJC20_21	AT5G42100	18422174	NM_123575	beta-1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	MXK3_1	AT5G64790	18424866	NM_125875	beta-1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	F3P11.4	AT2G19440	18399040	NM_127502	diacylglycerol O-acyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Beta-1,3-glucanase family"	NULL	NULL	F13O11_7	AT1G64760	18408124	NM_105150	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	F9K23_3	AT1G58440	18406295	NM_104624	squalene monooxygenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	T20K9.4	AT2G22830	18400099	NM_127848	putative squalene epoxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	T28I19_40	AT4G37760	18420112	NM_119938	squalene epoxidase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	MLE8_6	AT5G24140	18420754	NM_122319	squalene monooxygenase 2 (squalene epoxidase 2) (SE 2) (sp|O65403)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	K12G2_2	AT5G24150	18420755	NM_122320	squalene monooxygenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Squalene epoxidase - like family	NULL	NULL	K12G2_4	AT5G24160	18420756	NM_122321	squalene monooxygenase 1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Luminal binding protein family	NULL	NULL	T26D3_50	AT5G28540	18421240	NM_122737	luminal binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Luminal binding protein family	NULL	NULL	MJC20_12	AT5G42020	18422163	NM_123567	luminal binding protein (dbj|BAA13948.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Beta-hydroxyacyl-ACP dehydratase family	NULL	NULL	T26C19.11	AT2G22230	18399909	NM_127789	putative beta-hydroxyacyl-ACP dehydratase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Beta-hydroxyacyl-ACP dehydratase family	NULL	NULL	T31P16_150	AT5G10160	18416199	NM_121054	(3R)-hydroxymyristoyl-[acyl carrier protein] dehydratase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Peroxisomal membrane protein family	NULL	NULL	T26I20.2	AT2G14860	18397653	NM_127050	22 kDa peroxisomal membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Peroxisomal membrane protein family	NULL	NULL	F17I5_90	AT4G33900	18418316	NM_119548	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative acyl-CoA:1-acylglycerol-3-phosphate acyltransferase family	NULL	NULL	F9E10_13	AT1G75020	18410752	NM_106159	putative acyl-CoA:1-acylglycerol-3-phosphate acyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative acyl-CoA:1-acylglycerol-3-phosphate acyltransferase family	NULL	NULL	F11M15_12	AT1G51260	18403441	NM_104004	putative acyl-CoA : 1-acylglycerol-3-phosphate acyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative acyl-CoA:1-acylglycerol-3-phosphate acyltransferase family	NULL	NULL	F15B8_160	AT3G57650	18410773	NM_115625	1-acylcerol-3-phosphate acyltransferase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative acyl-CoA:1-acylglycerol-3-phosphate acyltransferase family	NULL	NULL	MCB22_2	AT3G18850	18402029	NM_112771	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	C17L7_80	AT4G05160	18412826	NM_116755	4-coumarate--CoA ligase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	K9H21_8	AT5G63380	18424700	NM_125733	4-coumarate-CoA ligase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F5M15_15	AT1G20510	18394870	NM_101901	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F5M15_25	AT1G20500	18394869	NM_101900	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F5M15_16	AT1G20490	18394868	NM_101899	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F5M15_17	AT1G20480	18394867	NM_101898	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F16P17_27	AT1G62940	18407697	NM_104972	4-coumarate:coenzyme A ligase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	MXA21_10	AT5G38120	18421722	NM_123172	4-coumarate--CoA ligase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	4-coumarate--CoA ligase - like family	NULL	NULL	F13C5_180	AT4G19010	18415220	NM_118019	4-coumarate-CoA ligase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	F24B22_60	AT3G54100	18409995	NM_115270	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	T8P21.11	AT2G37980	18404606	NM_129355	similar to axi 1 protein from Nicotiana tabacum AT2G22830 T20K9. homeodomain transcription factor (HAT9)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	F17A17_24	AT3G07900	18398089	NM_111669	putative auxin-independent growth promoter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	MLE2_2	AT5G63390	18424701	NM_125734	auxin-independent growth promoter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	F4I1.31	AT2G44500	NULL	NULL	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	F7J8_80	AT5G01100	18412696	NM_120188	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	axi 1-like family	NULL	NULL	F12K8_19	AT1G22460	18395120	NM_102095	Similar to auxin-independent growth promoter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cysteine synthase AtcysC1 family	NULL	NULL	F2A19_40	AT3G61440	18412008	NM_116009	cysteine synthase AtcysC1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cysteine synthase AtcysC1 family	NULL	NULL	T12J13_9	AT3G03630	18396604	NM_111234	O-acetylserine (thiol) lyase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cysteine synthase AtcysC1 family	NULL	NULL	T9J14_11	AT3G04940	18397060	NM_111366	putative cysteine synthase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like family	NULL	NULL	T20F6.8	AT2G02780	18395429	NM_126333	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like family	NULL	NULL	MLE2_4	AT5G63410	18424703	NM_125736	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like family	NULL	NULL	MUA22_21	AT5G14210	18417317	NM_121425	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like family	NULL	NULL	F20H23_20	AT3G03770	18396659	NM_111248	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alpha/beta hydrolase family	NULL	NULL	T26G12_9	AT3G29770	18406313	NM_113902	alpha/beta hydrolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Alpha/beta hydrolase family	NULL	NULL	F18D22_70	AT5G10300	18416236	NM_121068	alpha-hydroxynitrile lyase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Aldose 1-epimerase - like family	NULL	NULL	T23J7_130	AT3G47800	18408510	NM_114648	aldose 1-epimerase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Aldose 1-epimerase - like family	NULL	NULL	F8M21_30	AT5G15140	18417580	NM_121518	putative aldose 1-epimerase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	SNF1 related protein kinase family	NULL	NULL	MXC7_3	AT3G23000	18403611	NM_113200	SNF1 related protein kinase (ATSRPK1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	SNF1 related protein kinase family	NULL	NULL	F28N24_9	AT1G29230	18397003	NM_102663	"protein kinase PK4, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	SNF1 related protein kinase family	NULL	NULL	F13P17.2	AT2G34180	18403473	NM_128969	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutamate-/aspartate-binding peptide family	NULL	NULL	dl3405w	AT4G14730	18414300	NM_117558	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutamate-/aspartate-binding peptide family	NULL	NULL	F16M2_160	AT3G63310	18412713	NM_116196	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutamate-/aspartate-binding peptide family	NULL	NULL	F10O3_10	AT1G03070	18379050	NM_100189	putative glutamate/aspartate-binding peptide	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutamate-/aspartate-binding peptide family	NULL	NULL	T10P11_23	AT4G02690	18412015	NM_116503	putative glutamate-/aspartate-binding peptide	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Contains similarity to mouse and human SL15 proteins family	NULL	NULL	F28D6_6	AT4G07390	18412993	NM_116811	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Contains similarity to mouse and human SL15 proteins family	NULL	NULL	f2o15_130	AT5G59470	18424243	NM_125338	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like protein family	NULL	NULL	F16F14.25	AT2G16250	18398063	NM_127181	putative LRR receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor protein kinase-like protein family	NULL	NULL	T22F8_170	AT4G39270	18420410	NM_120088	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Purple acid phosphatase family	NULL	NULL	T4M8.12	AT2G03450	18395554	NM_126396	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Purple acid phosphatase family	NULL	NULL	F16A14_4	AT1G13900	18394045	NM_101256	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Gamma-glutamyltransferase-like family	NULL	NULL	F17A13_30	AT4G29210	18417353	NM_119065	gamma-glutamyltransferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Gamma-glutamyltransferase-like family	NULL	NULL	T19P19_30	AT4G39640	18420494	NM_120124	putative gamma-glutamyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Gamma-glutamyltransferase-like family	NULL	NULL	T19P19_40	AT4G39650	18420496	NM_120125	putative gamma-glutamyltransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Globulin-like protein family	NULL	NULL	C7A10_660	AT4G36700	18419889	NM_119834	globulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Globulin-like protein family	NULL	NULL	F24H14.11	AT2G18540	18398773	NM_127410	putative vicilin storage protein (globulin-like)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Monooxygenase family	NULL	NULL	K18I23_12	AT5G05320	18414856	NM_120614	monooxygenase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Monooxygenase family	NULL	NULL	F20M13_100	AT4G38540	18420259	NM_120015	monooxygenase 2 (MO2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Patatin-like protein family	NULL	NULL	C7A10_300	AT4G37060	18419961	NM_119869	patatin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Patatin-like protein family	NULL	NULL	T9J22.23	AT2G26560	18401173	NM_128213	similar to latex allergen from Hevea brasiliensis	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Signal recognition particle receptor beta subunit-like family	NULL	NULL	MJJ3_7	AT5G05670	18414963	NM_120649	signal recognition particle receptor beta subunit-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Signal recognition particle receptor beta subunit-like family	NULL	NULL	MSF3.15	AT2G18770	18398842	NM_127433	putative translation initiation factor eIF-2B gamma subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH isolog family	NULL	NULL	MYA6_4	AT3G16300	18401085	NM_112501	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Cell division protein FtsH isolog family	NULL	NULL	F20B17_26	AT1G79780	18412509	NM_106627	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative sensory transduction histidine kinase family	NULL	NULL	F17L21_11	AT1G27320	18396291	NM_102494	putative sensory transduction histidine kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative sensory transduction histidine kinase family	NULL	NULL	MXH1_16	AT5G35750	18421493	NM_122966	histidine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutaredoxin family	NULL	NULL	F28J7_33	AT3G02000	18396030	NM_111066	putative glutaredoxin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutaredoxin family	NULL	NULL	dl3870w	AT4G15660	18414500	NM_117657	glutaredoxin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutaredoxin family	NULL	NULL	dl3875w	AT4G15670	18414501	NM_117658	glutaredoxin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutaredoxin family	NULL	NULL	dl3885w	AT4G15690	18414507	NM_117660	glutaredoxin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glutaredoxin family	NULL	NULL	dl3890w	AT4G15700	18414508	NM_117661	glutaredoxin homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative obtusifoliol 14-alpha demethylase family	NULL	NULL	F5J6.9	AT2G17330	18398386	NM_127288	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative obtusifoliol 14-alpha demethylase family	NULL	NULL	F25C20_17	AT1G11680	18391303	NM_101040	putative obtusifoliol 14-alpha demethylase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"AMP-binding protein, putative family"	NULL	NULL	K14A17_3	AT3G16910	18401298	NM_112567	AMP-binding protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"AMP-binding protein, putative family"	NULL	NULL	F2D10_4	AT1G20560	18394876	NM_101906	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mandelonitrile lyase-like protein family	NULL	NULL	F18O21_20	AT3G56060	18410416	NM_115464	mandelonitrile lyase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mandelonitrile lyase-like protein family	NULL	NULL	MSG15_1	AT5G51930	18423336	NM_124572	mandelonitrile lyase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mandelonitrile lyase-like protein family	NULL	NULL	MSG15_3	AT5G51950	18423338	NM_124574	mandelonitrile lyase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Calmodulin-binding heat-shock - like family	NULL	NULL	T2J13_110	AT3G49050	18408765	NM_114764	calmodulin-binding heat-shock - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Calmodulin-binding heat-shock - like family	NULL	NULL	F6N23_21	AT4G00500	18411353	NM_116274	putative calmodulin-binding heat shock protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Calmodulin-binding heat-shock - like family	NULL	NULL	K12B20_160	AT5G37710	18421679	NM_123130	calmodulin-binding heat-shock protein -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Nucellin, putative family"	NULL	NULL	T5M16_7	AT1G77480	18411564	NM_106397	nucellin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Nucellin, putative family"	NULL	NULL	T7O23_17	AT1G44130	18401232	NM_103539	"nucellin, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative protein transport protein SEC61 alpha subunit family	NULL	NULL	F28N24_3	AT1G29310	18397043	NM_102671	pseudogene	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative protein transport protein SEC61 alpha subunit family	NULL	NULL	F9K20_24	AT1G78720	18412082	NM_106519	"protein transport protein sec61 alpha subunit, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative protein transport protein SEC61 alpha subunit family	NULL	NULL	F13P17.9	AT2G34250	18403492	NM_128976	putative protein transport protein SEC61 alpha subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Aminoalcoholphosphotransferase family	NULL	NULL	MWL2_21	AT3G25585	18404580	NM_113456	aminoalcoholphosphotransferase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Aminoalcoholphosphotransferase family	NULL	NULL	F13B4_27	AT1G13560	18391527	NM_101226	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Ubiquitin-conjugating enzyme, putative family"	NULL	NULL	F8L10_22	AT1G53020	18404288	NM_104180	"ubiquitin-conjugating enzyme, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Ubiquitin-conjugating enzyme, putative family"	NULL	NULL	T1B8.8	AT2G33770	18403369	NM_128936	putative ubiquitin-conjugating enzyme E2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glycine-rich protein family	NULL	NULL	T2I1_220	AT5G07510	18415523	NM_120833	glycine-rich protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glycine-rich protein family	NULL	NULL	T2I1_230	AT5G07520	18415538	NM_120834	glycine-rich protein atGRP	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glycine-rich protein family	NULL	NULL	T2I1_240	AT5G07530	18415544	NM_120835	glycine-rich protein atGRP-7	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glycine-rich protein family	NULL	NULL	MBK20_3	AT5G07600	18415562	NM_120842	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	UDP-GlcNAc:dolichol phosphate N-acetylglucosamine-1-phosphate transferase-like protein family	NULL	NULL	T32G6.1	AT2G41490	18405715	NM_129712	putative cytokinin oxidase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	UDP-GlcNAc:dolichol phosphate N-acetylglucosamine-1-phosphate transferase-like protein family	NULL	NULL	F28O9_70	AT3G57220	18410668	NM_115582	UDP-GlcNAc:dolichol phosphate N-acetylglucosamine-1-phosphate transferase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ubiquitin carboxyl terminal hydrolase family	NULL	NULL	F25P17.6	AT2G24640	18400596	NM_128025	putative ubiquitin carboxyl terminal hydrolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative ubiquitin carboxyl terminal hydrolase family	NULL	NULL	F28M20_140	AT4G31670	18417850	NM_119316	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative peroxidase	NULL	NULL	F20B18_90	AT4G25980	18416657	NM_118731	F28M20_140 putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	T5C23_120	AT4G11690	18413633	NM_117238	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	F11F19.2	AT2G36070	18404035	NM_129166	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	F3G5.20	AT2G37410	18404416	NM_129296	putative protein translocase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	F14O10_3	AT1G20350	18394852	NM_101886	"mitochondrial inner membrane translocase component, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	T13C7.10	AT2G20510	18399376	NM_127610	putative mitochondrial inner membrane translocating protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Mitochondrial Protein Translocase (MPT) Family	NULL	NULL	F10M23_10	AT4G26670	18416797	NM_118801	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Solute:Sodium Symporter (SSS) Family	NULL	NULL	MFC19_5	AT5G45380	18422546	NM_123906	urea active transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Small Multidrug Resistance (SMR) Family	NULL	NULL	T8K22.11	AT2G02590	18395392	NM_126315	putative transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Resistance-Nodulation-Cell Division (RND) Superfamily	NULL	NULL	F22I13_120	AT4G38350	18420222	NM_119997	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Resistance-Nodulation-Cell Division (RND) Superfamily	NULL	NULL	F7F22_1	AT1G42470	18400651	NM_103435	Niemann-Pick C disease protein-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Similar to CCS1	NULL	NULL	F13F21_19	AT1G49380	18402617	NM_103828	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	EIN2	EIN2-NRAMP	NULL	NULL	AT5G03280	18414177	NM_120406	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Not56-like protei	NULL	NULL	F17A22.15	AT2G47760	18407442	NM_130343	Not56-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Peroxisomal membrane protein	NULL	NULL	T26N6_9	AT4G04470	18412573	NM_116685	PEROXISOMAL MEMBRANE PROTEIN PMP22	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative LEA (late embryogenesis abundant) protein	NULL	NULL	T18E12.19	AT2G03140	18395491	NM_126365	similar to late embryogenesis abundant proteins	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Myosin-like	NULL	NULL	F7C8_60	AT5G20470	18420221	NM_122054	myosin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative preprotein translocase SECY protein	NULL	NULL	T9H9.5	AT2G31530	18402695	NM_128710	putative preprotein translocase SECY protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative poly(3 ADP-ribose) glycohydrolase	NULL	NULL	F20M17.10	AT2G31860	18402792	NM_128744	putative poly(3 ADP-ribose) glycohydrolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Leucine rich repeat receptor kinase-like protein	NULL	NULL	T12H17_120	AT4G22730	18415994	NM_118399	leucine rich repeat receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Serine O-acetyltransferase	NULL	NULL	T17A5.1	AT2G17640	18398490	NM_127318	serine acetyltransferase (GB:AF112303)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative glycosylasparaginase	NULL	NULL	F6N23_5	AT4G00590	18411383	NM_116284	putative glycosylasparaginase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Glycine/proline-rich protein	NULL	NULL	T2I1_280	AT5G07570	18415555	NM_120839	glycine/proline-rich protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Barley Mlo protein isolog	NULL	NULL	T19D16_26	AT1G11000	18391227	NM_100975	Barley Mlo protein isolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Katanin p80 subunit - like	NULL	NULL	F8L15_120	AT5G08390	18415800	NM_120923	katanin p80 subunit - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Putative replication protein A1	NULL	NULL	F7B19.10	AT2G09960	18396789	NM_126783	putative replication protein A1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	MLO proteins	ATMLO1	NULL	T10P11.12	AT4G02600	18411989	NM_116494	AtMlo-h1-like protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO2	NULL	T28P6.4	AT1G11310	18391262	NM_101004	"Mlo protein, putative"	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO3	NULL	F18N11.50	AT3G45290	18407954	NM_114398	putative protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO4	NULL	T19D16.26	AT1G11000	18391227	NM_100975	Barley Mlo protein isolog	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO6	NULL	T25B24.9	AT1G61560	18407233	NM_104836	"Mlo protein, putative"	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO7	NULL	F5J6.19	AT2G17430	18398429	NM_127298	putative Mlo protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO8	NULL	F5J6.21	AT2G17480	18398443	NM_127302	similar to Mlo proteins from H. vulgare	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO9	NULL	T8D8.5	AT1G42560	18400676	NM_103440	Mlo-like protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO10	NULL	K14B20.14	AT5G65970	18425014	NM_125994	Mlo protein-like	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO11	NULL	MGN6.12	AT5G53760	18423549	NM_124755	putative protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO12	NULL	T16B24.16	AT2G39200	18404978	NM_129478	similar to Mlo proteins from H. vulgare	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO13	NULL	T22A6.80	AT4G24250	18416310	NM_118558	Mlo-like protein	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO14	NULL	T24P13.8	AT1G26700	18396018	NM_102433	"Mlo protein, putative"	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	MLO proteins	ATMLO15	NULL	F6E13.24	AT2G44110	18406453	NM_129974	similar to Mlo proteins from H. vulgare	NULL	MLO proteins possess seven transmembrane domains and a framework of conserved (invariant) amino acis residues.	1702	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~panstrug/	MLO proteins- seven transmembrane proteins unique to plants
NULL	Magnesium Transporters	ATMRS2-1	NULL	T24D18.11	AT1G16010	18394311	NM_101469	expressed protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-2	NULL	MUB3.8	AT5G64560	18424838	NM_125852	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-3	NULL	MMB12.11	AT3G19640	18402316	NM_112854	unknown protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-4	NULL	F17J16.20	AT3G58970	18411069	NM_115759	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-5	NULL	F19B11.7	AT2G03620	18395585	NM_126412	hypothetical protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-6	NULL	T5F17.30	AT4G28580	18417224	NM_119000	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-7	NULL	F17I14.120	AT5G09690	18416061	NM_121006	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-8	NULL	F17I14.90	AT5G09720	18416069	NM_121009	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-9	NULL	F17I14.100	AT5G09710	18416066	NM_121008	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	ATMRS2-10	NULL	F23A5.26	AT1G80900	18412910	NM_106738	expressed protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
NULL	Magnesium Transporters	NULL	NULL	MRN17.6	AT5G22830	18420607	NM_122188	putative protein	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	2099	NULL	1345730	NULL	NULL	NULL
Monolignol Biosynthesis	PAL (Phenylalanine ammonia lyase)	Arath;PAL1	NULL	NULL	At2g37040	NULL	AAK76593	Phenylalanine ammonia lyase1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	PAL (Phenylalanine ammonia lyase)	Arath;PAL2	NULL	NULL	AT3g53260	NULL	AAM91425	Phenylalanine ammonia lyase2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	PAL (Phenylalanine ammonia lyase)	Arath;PAL3	NULL	NULL	AT5g04230	NULL	NP_196043	Phenylalanine ammonia-lyase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	PAL (Phenylalanine ammonia lyase)	Arath;PAL4	NULL	NULL	AT3g10340	NULL	AAF02809	putative phenylalanine ammonia-lyase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	C4H (trans-cinnamate 4-hydroxylase); Cytochrome P450	Arath;C4H	"CYP73A5, ref3"	NULL	At2g30490	NULL	NP_180607	cytochrome P450 73 / trans-cinnamate 4-monooxygenase / cinnamate-4-hydroxylase 	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL (4-coumarate:CoA ligase)	Arath;4CL1	NULL	NULL	At1g51680	NULL	AAM20598	putative 4-coumarate:CoA ligase 1 (4-coumaroyl-CoA synthase 1)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL (4-coumarate:CoA ligase)	Arath;4CL2	NULL	NULL	At3g21240	NULL	AAD47192	4-coumarate:CoA ligase 2 (4-coumaroyl-CoA synthase 2)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL (4-coumarate:CoA ligase)	Arath;4CL3	NULL	NULL	At1g65060	NULL	AAD47195	putative 4-coumarate:CoA ligase 3 (4-coumaroyl-CoA synthase 3)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL (4-coumarate:CoA ligase)	Arath;4CL4	NULL	NULL	At3g21230	NULL	BAB01715	putative 4-coumarate:CoA ligase (4-coumaroyl-CoA synthase)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	HCT (Hydroxycinnamoyl CoA:shikimate/quinate hydroxycinnamoyltransferase)	Arath;HCT	NULL	NULL	At5g48930	NULL	NP_199704	transferase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	C3H (p-Coumarate 3-hydroxylase); Cytochrome P450	Arath;C3H1	"CYP98A3, C3'H, ref8"	NULL	At2g40890	NULL	NP_565943	cytochrome P450 98A3	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	C3H (p-Coumarate 3-hydroxylase); Cytochrome P451	Arath;C3H2	CYP98A8	NULL	At1g74540	NULL	AAG52369	putative cytochrome P450	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	C3H (p-Coumarate 3-hydroxylase); Cytochrome P452	Arath;C3H3	CYP98A9	NULL	At1g74550	NULL	AAM67314	putative cytochrome P450	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT1	NULL	NULL	At4g34050	NULL	AAL32708	caffeoyl-CoA 3-O-methyltransferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT2	NULL	NULL	At1g24735	NULL	AAG03123	putative caffeoyl-CoA 3-O-methyltransferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT3	NULL	NULL	At3g61990	NULL	AAM91222	O-methyltransferase family 3	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT4	NULL	NULL	At3g62000	NULL	AAM16164	O-methyltransferase family 3	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT5	NULL	NULL	At1g67990	NULL	AAG52012	putative caffeoyl-CoA 3-O-methyltransferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT6	NULL	NULL	At1g67980	NULL	AAG52015	putative caffeoyl-CoA 3-O-methyltransferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCoAOMT (Caffeoyl-CoA 3-O-methyltransferase)	Arath;CCoAOMT7	NULL	NULL	At4g26220	NULL	AAK26027	putative caffeoyl-CoA 3-O-methyltransferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR (Cinnamoyl CoA reductase)	Arath;CCR1	irx4	NULL	At1g15950	NULL	AAF18492	putative cinnamoyl-CoA reductase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR (Cinnamoyl CoA reductase)	Arath;CCR2	NULL	NULL	At1g80820	NULL	AAF14669	putative cinnamoyl-CoA reductase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	F5H (Ferulate 5-hydroxylase); Cytochrome P450	Arath;F5H1	"CYP84A1, fah"	NULL	At4g36220	NULL	NP_195345	cytochrome P450 84A1 / ferulate-5-hydroxylase (F5H) (FAH1) (CYP84A1)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	F5H (Ferulate 5-hydroxylase); Cytochrome P451	Arath;F5H2	CYP84A4	NULL	At5g04330	NULL	NP_196053	putative cytochrome P450	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT (Caffeic acid O-methyltransferase)	Arath;COMT	NULL	NULL	At5g54160	NULL	AAM10127	O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD1	NULL	NULL	At4g39330	NULL	AAK43875	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD2	LCAD-C	NULL	At3g19450	NULL	AAL34250	cinnamyl-alcohol dehydrogenase 	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD3	LCAD-A	NULL	At4g37970	NULL	CAB37537	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD4	"LCAD-B, ELI3-1"	NULL	At4g37980	NULL	AAK25935	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD5	"ELI3-2, BAD"	NULL	At4g37990	NULL	AAK32871	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD6	LCAD-D	NULL	At4g34230	NULL	AAK59426	putative cinnamyl-alcohol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD7	LCAD-E	NULL	At2g21730	NULL	AAD20393	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD8	LCAD-F	NULL	At2g21890	NULL	AAD20406	putative mannitol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CAD (Cinnamyl alcohol dehydrogenase)	Arath; CAD9	NULL	NULL	At1g72680	NULL	AAG51850	putative cinnamyl-alcohol dehydrogenase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like1	NULL	NULL	At1g20510	NULL	AAK64105	4-coumarate:CoA ligase 1 (4-coumaroyl-CoA synthase 1) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like2	NULL	NULL	At1g20500	NULL	NP_173474	4-coumarate:CoA ligase 1 (4-coumaroyl-CoA synthase 1) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like3	NULL	NULL	At1g20490	NULL	NP_173473	4-coumarate:CoA ligase 1 (4-coumaroyl-CoA synthase 1) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like4	NULL	NULL	At1g20480	NULL	NP_173472	4-coumarate:CoA ligase 1 (4-coumaroyl-CoA synthase 1) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like5	NULL	NULL	At1g62940	NULL	AAF75805	4-coumarate:CoA ligase (4-coumaroyl-CoA synthase) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like6	NULL	NULL	At4g19010	NULL	CAB78903	4-coumarate:CoA ligase (4-coumaroyl-CoA synthase) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like7	NULL	NULL	At4g05160	NULL	AAM13899	putative 4-coumarate:CoA ligase-like protein (4-coumaroyl-CoA synthase)	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like8	NULL	NULL	At5g63380	NULL	AAM97124	4-coumarate:CoA ligase (4-coumaroyl-CoA synthase) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	4CL-like	Arath;4CL-like9	NULL	NULL	At5g38120	NULL	BAC42672	4-coumarate:CoA ligase (4-coumaroyl-CoA synthase) family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR-like	Arath;CCR-like1	NULL	NULL	At1g76470	NULL	AAF16654	cinnamoyl-CoA reductase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR-like	Arath;CCR-like2	NULL	NULL	At2g02400	NULL	AAC78522	cinnamoyl-CoA reductase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR-like	Arath;CCR-like3	NULL	NULL	At2g33590	NULL	AAN15374	cinnamoyl-CoA reductase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR-like	Arath;CCR-like4	NULL	NULL	At2g33600	NULL	AAM13142	cinnamoyl-CoA reductase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	CCR-like	Arath;CCR-like5	NULL	NULL	At5g58490	NULL	AAO22571	cinnamoyl-CoA reductase family	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like1	NULL	NULL	At1g21100	NULL	AF344316	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like2	NULL	NULL	At1g21110	NULL	AAF80650	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like3	NULL	NULL	At1g21120	NULL	AAF80649	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like4	NULL	NULL	At1g21130	NULL	AAF80648	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like5	NULL	NULL	At1g33030	NULL	AAF31281	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like6	NULL	NULL	At1g51990	NULL	AAD12674	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like7	NULL	NULL	At1g63140	NULL	AAG51616	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like8	NULL	NULL	At1g76790	NULL	AAF04440	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like9	NULL	NULL	At1g77520	NULL	AAG51676	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like10	NULL	NULL	At1g77530	NULL	AAG51679	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like11	NULL	NULL	At3g53140	NULL	CAB64217	putative O-diphenol-O-methyl transferase	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like12	NULL	NULL	At5g37170	NULL	BAB11374	O-methyltransferase family 2	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monolignol Biosynthesis	COMT-like	Arath;COMT-like13	NULL	NULL	At5g53810	NULL	BAB09553	putative O-methyltransferase 1	NULL	"Genes were annotated using Genemark.hmm (Lukashin and Borodovsky, 1998) prediction. Annotation was further refined using Eugene (Schiex et al., 2001) and manually, taking into account EST data and family similarities.  Expression of genes was confirmed using RT-PCR."	1501414522	NULL	501711362	14612585	http://www.psb.rug.ac.be/bioinformatics/lignin/	Arabidopsis monolignol genes
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP1	NULL	T28P6_18	At1g11260	16519	AAD49995	"monosaccharide-H+ symporter, STP1"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP2	NULL	F22G5_32	At1g07340	18390756	NM_100608	"monosaccharide-H+ symporter, STP2"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP3	NULL	K11J9_8	At5g61520	4127417	CAA05384	"monosaccharide-H+ symporter, STP3"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP4	NULL	MPN9_19	At3g19930	30685559	NM_112883	"monosaccharide-H+ symporter, STP4"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP5	NULL	F12K21_8	At1g34580	8778264	AAF79273	"monosaccharide-H+ symporter, STP5"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP6	NULL	F2O10_8	At3g05960	6671961	AAF23220	"monosaccharide-H+ symporter, STP6"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP7	NULL	T10M13_6	At4g02050	7268589	CAB80698	"monosaccharide-H+ symporter, STP7 "	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP8	NULL	T19G15_100	At5g26250	15487246	CAC69068	"monosaccharide-H+ symporter, STP8"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP9	NULL	F14I3_20	At1g50310	15487254	CAC69072	"monosaccharide-H+ transporter, STP9"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP10	NULL	MPN9_18	At3g19940	18402423	NM_112884	"monosaccharide-H+ transporter, STP10"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP11	NULL	MKD15_13	At5g23270	15487260	CAC69075	"monosaccharide-H+ symporter, STP11"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP12	NULL	F18E5_100	At4g21480	15487248	CAC69069	"monosaccharide-H+ symporter, STP12"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP13	NULL	F9D12_17	At5g26340	15487258	CAC69074	"monosaccharide-H+ symporter, STP13"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Monosaccharide (hexoses / pentoses)-H+ symporter family (plasma membrane)	AtSTP14	NULL	T14N5_7	At1g77210	15487250	CAC69070	"monosaccharide-H+ symporter, STP14"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT1	NULL	F7H1_14	At2g16120	4678208	AAD26954	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT2	NULL	F7H1_15	At2g16130	4678209	AAD26955	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT3	NULL	F24H14_17	At2g18480	4218010	AAD12218	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT4	NULL	F5H14_25	At2g20780	4454470	AAD20917	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT5	NULL	MVE11_22	At3g18830	9293909	BAB01812	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (linear)-H+ symporter family (plasma membrane ?)	AtPLT6	NULL	C7A10_690	At4g36670	7270615	CAB80333	putative polyol (linear) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (cyclic)-H+ symporter family (tonoplast membrane ?)	AtINT1	NULL	T1O24_7	At2g43330	2289003	AAB64332	putative polyol (cyclic) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (cyclic)-H+ symporter family (tonoplast membrane ?)	AtINT2	NULL	F12P21_2	At1g30220	2245004	CAB10424	putative polyol (cyclic) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (cyclic)-H+ symporter family (tonoplast membrane ?)	AtINT3	NULL	T20F21_7	At2g35740	4263781	AAD15441	putative polyol (cyclic) transporter 	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative polyol (cyclic)-H+ symporter family (tonoplast membrane ?)	AtINT4	NULL	FCAALL_375	At4g16480	7268398	CAB78690	putative polyol (cyclic) transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (homology to bacterial xylose transporters)	NULL	NULL	T17B22_22	At3g03090	6714427	AAF26115	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (homology to bacterial xylose transporters)	NULL	NULL	F2K13_160	At5g17010	9755702	CAC01714	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (homology to bacterial xylose transporters)	NULL	NULL	MNC17_140	At5g59250	9759246	BAB09770	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (large central loop)	AtAZT1	NULL	F9H16_19	At1g20840	30687048	NM_101937	putative sugar transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (large central loop)	AtAZT2	NULL	F26O13_130	At3g51490	18409353	NM_115008	putative sugar transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (large central loop)	AtAZT3	NULL	F23E12_140	At4g35300	3080420	CAA18739	putative sugar transporter	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (plastidic localization)	NULL	NULL	T7A14_10	At1g05030	4056428	AAC98002	putative monosaccharide transporter (plaastids?)	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (plastidic localization)	NULL	NULL	F1N21_12	At1g67300	9828628	AAG00251	putative monosaccharide transporter (plastids?)	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (plastidic localization)	NULL	NULL	F19K16_22	At1g79820	6453876	AAF09060	putative monosaccharide transporter (plastids?)	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (plastidic localization)	AtpGlcT	NULL	T21H19_70	At5g16150	9755825	CAC01856	putative monosaccharide transporter (plastids?)	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F7G19_23	At1g08890	2342689	AAB70415	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F7G19_22	At1g08900	2342688	AAB70414	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F7G19_20	At1g08920	6686827	CAB64733	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	AtERD6	NULL	F7G19_19	At1g08930	6686827	CAB64732	"putative sugar transport protein, ERD6"	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F18O14_20	At1g19450	8778437	AAF79445	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T22H22_15	At1g54730	3776581	AAC64898	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F22H5_6	At1g75220	10092276	AAG12689	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T9J23_17	At2g48020	4249409	AAD13706	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T12H1_11	At3g05150	6729025	AAF27021	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T12H1_12	At3g05160	6729026	AAF27022	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T12H1_13	At3g05165	15081629	NULL	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F22F7_16	At3g05400	7596771	AAF64542	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	MQC12_22	At3g20460	9294566	BAB02829	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T4B21_10	At4g04750	7267233	CAB80840	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T4B21_9	At4g04760	7267234	CAB80841	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	T12H1_36	At3g05155	30679401	NP_683530	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	NULL	NULL	F17K4_90	At5g18840	30687035	NM_121889	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	AtSFP1	NULL	F21A20_60	At5g27350	14585699	AAK11720	putative sugar transport protein	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Monosaccharide transporter-like gene family	Putative monosaccharide transporter family (ERD-group = induced by early dehydration)	AtSFP2	NULL	F21A20_70	At5g27360	14585701	AAK11721	putative sugar transport protein 	NULL	"Homology to the functionally characterized monosaccharide-H+ symporters of the AtSTP family and homology to sugar transporters from other organisms (bacteria, mammals etc.)"	"4935, 560"	NULL	501711724|501711723	10748259|10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
MYB	Myb3r- and R2R3- type MYB- encoding genes	AtMYB0	NULL	K16N12	AT3G27920	18405576	NM_113708	MYB family transcription factor (GL1)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB1	NULL	F3L24	AT3G09230	18398430	NM_111757	unknown protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB2	NULL	T8I3	AT2G47190	18407291	NM_130287	MYB transcription factor (Atmyb2)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3	NULL	T22J18	AT1G22640	18395141	NM_102111	putative myb-related transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB4	NULL	F20M13	AT4G38620	18420274	NM_120023	putative transcription factor (MYB4)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB5	NULL	MRP15	AT3G13540	18400054	NM_112200	myb-related protein 5	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB6	NULL	T15G18	AT4G09460	18413228	NM_117014	myb DNA-binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB7	NULL	T24I21	AT2G16720	18398195	NM_127224	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB8	NULL	F15O4	AT1G35515	NULL	NULL	NULL	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB9	NULL	F5E19	AT5G16770	18418084	NM_121683	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB10	NULL	MKB21	AT3G12820	18399756	NM_112118	"myb-related protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB11	NULL	F26K9	AT3G62610	18412432	NM_116126	myb DNA-binding protein(MYB11)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB12	NULL	T30B22	AT2G47460	18407361	NM_130314	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB13	NULL	F9P14	AT1G06180	18390621	NM_100499	myb DNA binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB14	NULL	F16D14	AT2G31180	18402582	NM_128674	myb DNA-binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB15	NULL	K14B15	AT3G23250	18403698	NM_113226	myb DNA-binding protein(MYB15)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB16	NULL	F8M21	AT5G15310	18417626	NM_121535	myb DNA-binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB17	NULL	T20K12	AT3G61250	18411908	NM_115989	myb DNA-binding protein (MYB17)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB18	NULL	M7J2	AT4G25560	18416574	NM_118688	myb DNA-binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB19	NULL	F17P19	AT5G52260	18423370	NM_124605	myb DNA-binding protein(MYB19)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB20	NULL	T6J19	AT1G66230	18408464	NM_105294	myb DNA-binding protein(MYB20)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB21	NULL	K16N12	AT3G27810	18405526	NM_113696	myb protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB22	NULL	MPO12	AT5G40430	18421984	NM_123407	putative transcription factor MYB22	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB23	NULL	MPO12	AT5G40330	18421973	NM_123397	myb-related protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB24	NULL	MPO12	AT5G40350	18421975	NM_123399	putative transcription factor MYB24	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB25	NULL	T28M21	AT2G39880	18405191	NM_129546	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB26	NULL	MCD16	AT3G13890	18400202	NM_112243	myb protein(myb26)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB27	NULL	T4D2	AT3G53200	18409791	NM_115180	myb protein(MYB27)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB28	NULL	MFB13	AT5G61420	18424465	NM_125535	putative transcription factor MYB28	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB29	NULL	MBK20	AT5G07690	18415584	NM_120851	transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB30	NULL	MDL15	AT3G28910	18405974	NM_113812	"MYB family transcription factor (hsr1), putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB31	NULL	F1M20	AT1G74650	18410663	NM_106123	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB32	NULL	M4E13	AT4G34990	18418554	NM_119665	MYB-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB33	NULL	K16F4	AT5G06100	18415099	NM_120692	MYB family transcription factor-like	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB34	NULL	NULL	AT5G60890	18424407	NM_125482	Myb transcription factor homolog (ATR1)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB35	NULL	MFJ20	AT3G28470	NULL	NULL	"myb transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB36	NULL	MUA2	AT5G57620	18423999	NM_125143	Myb-related transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB37	NULL	T20O7	AT5G23000	18420627	NM_122206	myb-related transcription factor-like	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB38	NULL	T1J8	AT2G36890	18404266	NM_129245	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB39	NULL	AtFCAcontig	AT4G17780	18414961	NM_117887	predicted protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB40	NULL	F18O12	AT5G14340	18417351	NM_121438	MYB40 - putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB41	NULL	T13J8	AT4G28110	18417128	NM_118951	"transcription factor MYB41, myb"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB42	NULL	T4C9	AT4G12350	18413790	NM_117305	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB43	NULL	MTG13	AT5G16600	18418022	NM_121666	transcription factor (gb|AAD53095.1)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB44	NULL	K8K14	AT5G67300	18425174	NM_126130	"myb-related protein, 33.3K (pir |S71284)"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB45	NULL	T2J13	AT3G48920	18408733	NM_114751	myb-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB46	NULL	T24H18	AT5G12870	18416886	NM_121290	putative transcription factor (MYB46)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB47	NULL	F6A14	AT1G18710	18394644	NM_101729	"Myb-related transcription factor mixta, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB48	NULL	F12M12	AT3G46130	18408145	NM_114482	Myb DNA binding protein -like	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB49	NULL	MDK4.4	AT5G54230	18423605	NM_124803	Myb-related transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB50	NULL	F25P12	AT1G57560	18405956	NM_104552	"DNA-binding protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB51	NULL	F25I16	AT1G18570	18394626	NM_101715	"myb factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB52	NULL	F2H15	AT1G17950	18394555	NM_101658	"myb-like protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB53	NULL	MQN23	AT5G65230	18424926	NM_125921	transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB54	NULL	T9L24	AT1G73410	18410353	NM_106001	"myb-like transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB55	NULL	T15B16.4	AT4G01680	18411700	NM_116398	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB56	NULL	MVA3.16	AT5G17800	18418438	NM_121786	MYB56 R2R3-MYB factor family member	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB57	NULL	F4P13	AT3G01530	18395850	NM_111019	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB58	NULL	F3O9	AT1G16490	18394367	NM_101514	putative myb-related transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB59	NULL	MTH12	AT5G59780	18424280	NM_125370	MYB27 protein - like	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB60	NULL	F22O13	AT1G08810	18390944	NM_100755	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB61	NULL	F14J9	AT1G09540	18391034	NM_100825	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB62	NULL	T22E19	AT1G68320	18408999	NM_105503	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB63	NULL	YUP8H12R	AT1G79180	18412291	NM_106569	"myb-related protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB64	NULL	T5K6	AT5G11050	18416450	NM_121143	MYB DNA-binding - like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB65	NULL	F24K9	AT3G11440	18399236	NM_111977	"Myb DNA-binding protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB66	NULL	T9L3	AT5G14750	18417467	NM_121479	myb transcription factor werewolf (WER)/ MYB66	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB67	NULL	MBK21	AT3G12720	18399723	NM_112108	"myb-related transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB68	NULL	MPA24	AT5G65790	18424992	NM_125976	transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB69	NULL	F17M5	AT4G33450	18418216	NM_119499	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB70	NULL	T20D16	AT2G23290	18400227	NM_127893	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB71	NULL	K7M2	AT3G24310	NULL	NULL	"DNA-binding protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB72	NULL	F14G9	AT1G56160	18405711	NM_104495	"Myb-family transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB73	NULL	C7A10	AT4G37260	18420005	NM_119889	myb-related protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB74	NULL	C17L7	AT4G05100	18412803	NM_116749	MYB - like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB75	NULL	F25P12	AT1G56650	18405918	NM_104541	"anthocyanin2, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB76	NULL	MBK20	AT5G07700	18415586	NM_120852	transcription factor (gb|AAD53097.1)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB77	NULL	F3A4	AT3G50060	18409008	NM_114866	R2R3-MYB transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB78	NULL	K6M13	AT5G49620	18423049	NM_124340	myb-related transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB79	NULL	T6G15	AT4G13480	18414016	NM_117422	myb-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB80	NULL	MDA7	AT5G56110	18423824	NM_124993	myb DNA-binding protein(Atmyb103)	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB81	NULL	T20P8	AT2G26960	18401283	NM_128253	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB82	NULL	F6N7	AT5G52600	NULL	NULL	NULL	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB83	NULL	T8G24	AT3G08500	18398146	NM_111685	"MYB-family transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB84	NULL	T16K5	AT3G49690	18408923	NM_114829	AtMYB84	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB85	NULL	T12H17	AT4G22680	18415983	NM_118394	myb-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB86	NULL	F21E10	AT5G26660	NULL	NULL	NULL	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB87	NULL	T28I19	AT4G37780	18420118	NM_119940	myb transcription factor - like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB88	NULL	T20F6	AT2G02820	18395435	NM_126337	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB89	NULL	MIJ24	AT5G39700	18421896	NM_123332	putative transcription factor MYB89	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB90	NULL	T27F4	AT1G66390	18408500	NM_105310	"Myb-related transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB91	NULL	F13M22	AT2G37630	18404486	NM_129319	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB92	NULL	F18D22	AT5G10280	18416230	NM_121066	putative transcription factor MYB92	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB93	NULL	F21H2	AT1G34670	18399389	NM_103190	"myb-related protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB94	NULL	F1P2	AT3G47600	18408463	NM_114628	putative transcription factor MYB94	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB95	NULL	F1M20	AT1G74430	18410612	NM_106103	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB96	NULL	K19B1	AT5G62470	18424591	NM_125641	MYB96 transcription factor-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB97	NULL	F10M23	AT4G26930	18416893	NM_118827	putative myb-related protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB98	NULL	F28A21	AT4G18770	18415168	NM_117993	myb - like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB99	NULL	MMI9	AT5G62320	18424575	NM_125626	MYB99	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB100	NULL	T22F11	AT2G25230	18400763	NM_128080	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB101	NULL	T26B15	AT2G32460	18402976	NM_128805	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB102	NULL	F18E5	AT4G21440	18415693	NM_118264	myb-related protein M4	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB103	NULL	T12P18	AT1G63910	18407919	NM_105065	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB104	NULL	T20P8	AT2G26950	18401281	NM_128252	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB105	NULL	F24J1	AT1G69560	18409310	NM_105625	"MYB-family transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB106	NULL	T4P13	AT3G01140	18395718	NM_110979	putative Myb-related transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB107	NULL	F13E7	AT3G02940	18396390	NM_111164	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB108	NULL	F5E6	AT3G06490	18397595	NM_111525	"myb-related protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB109	NULL	F1I16	AT3G55730	18410343	NM_115431	MYB transcription factor - like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB110	NULL	K5K13	AT3G29020	18406018	NM_113823	unknown protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB111	NULL	K21P3	AT5G49330	18423015	NM_124310	putative protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB112	NULL	T2J15	AT1G48000	18401992	NM_103696	"myb-related transcription factor (cpm10), putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB113	NULL	T27F4	AT1G66370	18408495	NM_105308	"Myb-related transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB114	NULL	T24F4	AT1G66380	18408497	NM_105309	"Myb-related transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB115	NULL	MPO12	AT5G40360	18421976	NM_123400	MYB -like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB116	NULL	F4F7	AT1G25340	18395644	NM_102344	"myb-related transcription factor (cpm7), putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB117	NULL	T24P13	AT1G26780	18396048	NM_102441	"myb-related protein, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB118	NULL	MGF10	AT3G27780	18405516	NM_113693	hypothetical protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB119	NULL	K19M22	AT5G58850	18424162	NM_125275	myb-related protein - like	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB120	NULL	K13P22	AT5G55020	18423699	NM_124884	putative protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB121	NULL	MIL15	AT3G30210	18406386	NM_113920	"myb-like transcription factor, putative"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB122	NULL	F2P9	AT1G74080	18410527	NM_106068	putative transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB123	NULL	MOK9	AT5G35550	18421468	NM_122946	Myb-related transcription factor LBM2-like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB124	NULL	F14L17	AT1G14350	18394105	NM_101302	hypothetical protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtCDC5	NULL	F21M12	AT1G09770	18391064	NM_100849	"putative DNA-binding protein, Myb"	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB4R1	NULL	MRCA8	AT3G18100	18401768	NM_112692	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3R1	NULL	F4D11	AT4G32730	18418073	NM_119426	putative myb-protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3R2	NULL	F6N23	AT4G00540	18411364	NM_116278	putative myb-like DNA-binding protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3R3	NULL	F3L24	AT3G09370	18398486	NM_111771	putative MYB family transcription factor	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3R-4	NULL	dt_e_23	AT5G11510	18416581	NM_121189	MYB like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
MYB	MYB3R- and R2R3- type MYB- encoding genes	AtMYB3R-5	NULL	T1E22	AT5G02320	18413893	NM_120310	myb -like protein	NULL	NULL	2290;6272	NULL	1347735	NULL	http://www.mpiz-koeln.mpg.de/myb/	The R2R3-MYB gene family
Myosin	Myosin-like proteins	At ATM	NULL	MZE19.3	AT3G19960	18402433	NM_112886	myosin	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At ATM2	NULL	MDK4.10	AT5G54280	18423610	NM_124808	myosin heavy chain	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At VIIIA	NULL	F14I3.6	AT1G50360	18403037	NM_103919	"myosin, putative"	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At VIIIB	NULL	M4I22.180	AT4G27370	18416975	NM_118871	myosin heavy chain - like protein	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At MYA1	NULL	F1L3.28	AT1G17580	18394503	NM_101620	"myosin, putative"	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At MYA2	NULL	F6B6.4	AT5G43900	18422384	NM_123757	myosin heavy chain MYA2 (pir||S51824)	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIA	NULL	T1G11.15	AT1G04600	18390414	NM_100339	putative myosin heavy chain	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIB	NULL	F20D22.7	AT1G04160	18379254	NM_100297	myosin heavy chain MYA2	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIC	NULL	F22O13.200	AT1G08730	18390932	NM_100746	"putative myosin MYA1, class V (Z28389)"	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XID	NULL	F25I18.2	AT2G33240	18403221	NM_128883	putative myosin heavy chain	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIE	NULL	T22H22.1	AT1G54560	NULL	NULL	"myosin, putative"	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIF	NULL	F20M17.6	AT2G31900	18402809	NM_128748	putative unconventional myosin	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIG	NULL	F11A3.16	AT2G20290	18399304	NM_127588	putative myosin heavy chain	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIH	NULL	F16A16.180	AT4G28710	18417252	NM_119015	myosin heavy chain - like protein (fragment)	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XI-I	NULL	F4I10.130	AT4G33200	18418167	NM_119474	myosin - like protein	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIJ	NULL	F9D24.70	AT3G58160	18410892	NM_115678	myosin heavy chain MYA3	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
Myosin	Myosin-like proteins	At XIK	NULL	F7C8.80	AT5G20490	18420229	NM_122056	myosin-like protein	NULL	NULL	5935;912159	NULL	1346604	NULL	NULL	NULL
NADPH P450 reductases	NADPH P450 reductases	ATR1	NULL	F22K18.280	AT4G24520	18416369	NM_118585	NADPH-ferrihemoprotein reductase ATR1	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
NADPH P450 reductases	NADPH P450 reductases	ATR2	NULL	F9N11.60	AT4G30210	18417549	NM_119167	NADPH-ferrihemoprotein reductase (ATR2)	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
NADPH P450 reductases	NADPH P450 reductases	(putative) ATR3	NULL	F14P3.7	AT3G02280	18396132	NM_111095	putative NADPH-ferrihemoprotein reductase	NULL	NULL	958	NULL	NULL	NULL	http://www.biobase.dk/p450	Arabidopsis P450 site at PlaCe
NULL	Nicotianamine Synthase	AtNAS1a	NAS3	T12M4	At1g09240	NULL	AC003114	"synthesizes the metal chelator nicotianamine from 3 SAM, enzyme code 2.5.1.43"	NULL	Gene family based on sequence homology and phylogenetic analyses	11323;5501	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bauer.htm	AFGN - nicotianamine metabolism and transport
NULL	Nicotianamine Synthase	AtNAS1b	NAS4	F13N6	At1g56430	NULL	AC058785	"synthesizes the metal chelator nicotianamine from 3 SAM, enzyme code 2.5.1.43"	NULL	Gene family based on sequence homology and phylogenetic analyses	11323;5501	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bauer.htm	AFGN - nicotianamine metabolism and transport
NULL	Nicotianamine Synthase	AtNAS5a	NAS1	MUG13	At5g04950	NULL	BAA74589.1	"synthesizes the metal chelator nicotianamine from 3 SAM, enzyme code 2.5.1.43"	NULL	Gene family based on sequence homology and phylogenetic analyses	11323;5501	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bauer.htm	AFGN - nicotianamine metabolism and transport
NULL	Nicotianamine Synthase	AtNAS5b	NAS2	MDA7	At5g56080	NULL	NULL	"synthesizes the metal chelator nicotianamine from 3 SAM, enzyme code 2.5.1.43"	NULL	Gene family based on sequence homology and phylogenetic analyses	11323;5501	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/bauer.htm	AFGN - nicotianamine metabolism and transport
NULL	Nodulin-like protein family	NULL	NULL	T25K16_19	AT1G01070	18378791	NM_099989	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T18B16_150	AT4G19180	18415257	NM_118037	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F16L2_80	AT3G45870	18408087	NM_114456	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MMG15_6	AT3G28050	18405634	NM_113723	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MMG15_7	AT3G28060	18405637	NM_113724	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MMG15_8	AT3G28070	18405640	NM_113725	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MMG15_9	AT3G28080	18405641	NM_113726	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MMG15_10	AT3G28090	18405646	NM_113727	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MNJ7_6	AT5G47470	18422800	NM_124120	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MSN9_130	AT5G40230	18421961	NM_123387	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MSN9_140	AT5G40240	18421962	NM_123388	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T4D2_140	AT3G53210	18409793	NM_115181	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F3G5.24	AT2G37450	18404428	NM_129300	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F3G5.25	AT2G37460	18404431	NM_129301	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T13J8_150	AT4G28040	18417114	NM_118943	Medicago nodulin N21-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F10A5_24	AT1G75500	18410866	NM_106203	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F4F7_12	AT1G25270	18395624	NM_102336	"MtN21 nodulin protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T2K10_17	AT1G60050	18406599	NM_104697	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MSH12_14	AT5G13670	18417152	NM_121370	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T22E19_23	AT1G68170	18408963	NM_105487	MtN21-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T6J22_10	AT3G30340	18406447	NM_113933	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F12L6.17	AT2G39510	18405076	NM_129509	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	dl3810w	AT4G15540	18414473	NM_117644	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T12G13_130	AT4G08290	18413102	NM_116898	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T12G13_140	AT4G08300	18413103	NM_116899	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MVP7_2	AT5G64700	18424855	NM_125866	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T23J18_12	AT1G11450	18391279	NM_101018	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T23J18_29	AT1G11460	18391280	NM_101019	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F17I23_240	AT4G30420	18417590	NM_119188	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MOJ9_22	AT5G07050	18415386	NM_120787	MtN21 nodulin protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T5P19_270	AT3G56620	NULL	NULL	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F20P5_31	AT1G70260	18409484	NM_105694	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F14J9_4	AT1G09380	18391014	NM_100808	"putative nodulin protein, N21"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	dl4335c	AT4G16620	18414708	NM_117763	membrane protein homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T20B5.10	AT2G40900	18405540	NM_129653	putative integral membrane protein nodulin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MRC8_19	AT3G18200	18401804	NM_112703	integral membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F13M23_120	AT4G24980	18416462	NM_118630	putative protein (fragment)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F3D13_4	AT4G01430	18411635	NM_116373	predicted protein of unknown function	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F3D13_3	AT4G01440	18411637	NM_116374	predicted protein of unknown function	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F11O4_14	AT4G01450	18411640	NM_116375	predicted protein of unknown function	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T12C22_7	AT1G44800	18401340	NM_103561	"nodulin protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MFC19_4	AT5G45370	18422545	NM_123905	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T26F17_6	AT1G21890	18395045	NM_102037	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T21F11_14	AT1G80530	18412866	NM_106701	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T5K18_230	AT4G19450	18415315	NM_118065	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F25A4_25	AT1G74780	18410694	NM_106136	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F11I11_190	AT4G34950	18418545	NM_119661	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T9D9.11	AT2G30300	18402314	NM_128583	putative vacuolar sorting receptor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MUA22_12	AT5G14120	18417295	NM_121416	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T24I21.7	AT2G16660	18398177	NM_127218	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T16B24.15	AT2G39210	18404984	NM_129479	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F4P13_17	AT3G01630	18395887	NM_111029	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F28J7_26	AT3G01930	18395987	NM_111059	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F14D16_4	AT1G18940	18394672	NM_101751	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MBA10_8	AT5G50520	18423160	NM_124434	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MFB16_2	AT5G50630	18423170	NM_124439	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F13P17.19	AT2G34350	18403530	NM_128987	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F24D13.9	AT2G28120	18401635	NM_128372	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T8E3_15	AT1G31470	18397982	NM_102886	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F28O16_17	AT1G76800	18411206	NM_106330	nodulin-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	MJL12_14	AT3G25190	18404457	NM_113425	integral membrane protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	T22I11_3	AT1G21140	18394958	NM_101968	nodulin	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F23N14_10	AT3G43630	18407604	NM_114231	nodulin -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Nodulin-like protein family	NULL	NULL	F23N14_40	AT3G43660	18407613	NM_114234	nodulin - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT1	NULL	T25M19_4	At2g05760	4662639	AAD26910	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT2	NULL	F13P17_3	At2g34190	14334908	AAK59632	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT3	NULL	T9J22_18	At2g26510	2739376	AAC14499	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT4	NULL	F2J10_15	At1g49960	20466752	AAM20693	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT5	NULL	K9P8_13	At5g49990	31711940	AAP68326	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT6	NULL	MQB2_190	At5g62890	21326025	AAM47573	"permease, putative"	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT7	NULL	T2K10_8	At1g60030	30696385	NP_176211	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT8	NULL	T10O24_16	At1g10540	17380958	AAL36291	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT9	NULL	F18G18_160	At5g25420	15239419	NP_197924	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT10	NULL	F5I14_8	At1g65550	42562976	NP_176733	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT11	NULL	F20D10_170	At4g38050	38350521	AAR18373	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
NULL	"Nucleobase ascorbate transporters, NAT family"	AtNAT12	NULL	F15K20_9	At2g27810	38350523	AAR18374	xanthine/uracil permease family protein	NULL	"indentified by phylogenetic comparison using the Lpe1 protein from maize (AAB17501) and ascorbate transporters in humans and rat (CAB58120, CAB58119, NP_059011, NP_059012)"	1277	NULL	501706567	NULL	http://aramemnon.botanik.uni-koeln.de/; http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/fluegge.htm	aramemnon - a membrane protein database; Functional analysis of plant nucleobase and vitamin C transporters
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	MNC6_5	AT5G53510	18423522	NM_124731	isp4 protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	MNC6_6	AT5G53520	18423523	NM_124732	isp4 protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	T15N24_40	AT4G26590	18416782	NM_118793	isp4 like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	T29A15_220	AT4G27730	18417055	NM_118912	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	MYN21_4	AT5G55930	18423803	NM_124975	sexual differentiation process protein ISP4-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	MSJ1_25	AT5G64410	18424823	NM_125837	Isp4-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	dl4215c	AT4G16370	18414643	NM_117732	isp4 like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	F21M12_32	AT1G09930	18391089	NM_100867	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative oligopeptide transporter ISP4-like family	NULL	NULL	T12H20_7	AT4G10770	18413377	NM_117145	putative oligopeptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	MQC12_22	AT3G20460	18402624	NM_112937	"sugar transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T7A14_10	AT1G05030	18390471	NM_100382	putative sugar transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T20F21.7	AT2G35740	18403943	NM_129132	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F21A20_60	AT5G27350	18421105	NM_122617	sugar transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F21A20_70	AT5G27360	18421107	NM_122618	sugar transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F2O10_8	AT3G05960	18397420	NM_111470	putative hexose transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	k11j9_40	AT5G61520	18424476	NM_125545	monosaccharide transporter STP3	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F17K4_90	AT5G18840	18419740	NM_121889	sugar transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F1N21_12	AT1G67300	18408735	NM_105398	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F14I3_20	AT1G50310	18403017	NM_103915	"hexose transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T4B21_10	AT4G04750	18412677	NM_116713	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T4B21_9	AT4G04760	18412688	NM_116714	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F22H5_6	AT1G75220	18410800	NM_106178	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F18E5_100	AT4G21480	18415703	NM_118268	glucose transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T9J23.17	AT2G48020	18407507	NM_130369	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F22G5_26	AT1G07340	18390756	NM_100608	"hexose transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7H1.14	AT2G16120	18398023	NM_127170	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7H1.15	AT2G16130	18398026	NM_127171	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	C7A10_690	AT4G36670	18419883	NM_119831	sugar transporter like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	AT1G34580F12K21_7	AT1G34580	18399348	NM_103182	"monosaccharide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F18O14_20	AT1G19450	18394740	NM_101801	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	MKD15_13	AT5G23270	18420656	NM_122233	monosaccharide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7G19_19	AT1G08930	18390958	NM_100765	"zinc finger protein ATZF1, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7G19_20	AT1G08920	18390956	NM_100764	"putative sugar transport protein, ERD6"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7G19_22	AT1G08900	18390953	NM_100762	"putative sugar transport protein, ERD6"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F7G19_23	AT1G08890	18390952	NM_100761	"putative sugar transport protein, ERD6"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T14N5_7	AT1G77210	18411402	NM_106370	"sugar carrier protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T17B22_22	AT3G03090	18396438	NM_111179	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	dl4265w	AT4G16480	18414670	NM_117746	membrane transporter like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T21H19_70	AT5G16150	18417891	NM_121620	sugar transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F24H14.17	AT2G18480	18398749	NM_127404	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T1O24.7	AT2G43330	18406209	NM_129894	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	mnc17_140	AT5G59250	18424213	NM_125315	D-xylose-H+ symporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T28P6_18	AT1G11260	18391255	NM_100998	glucose transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T10M13_6	AT4G02050	18411816	NM_116436	putative hexose transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	MVE11_22	AT3G18830	18402021	NM_112769	"sugar transport, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F2K13_160	AT5G17010	18418153	NM_121707	sugar transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F12P21_2	AT1G30220	18397410	NM_102761	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T22H22_15	AT1G54730	18405039	NM_104348	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T12H1_11	AT3G05150	18397137	NM_111387	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T12H1_13	AT3G05160	18397138	NM_111388	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F22F7_16	AT3G05400	18397219	NM_111413	"sugar transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F19K16_22	AT1G79820	18412523	NM_106631	"hexose transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	T19G15_100	AT5G26250	18421004	NM_122526	hexose transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F9D12_17	AT5G26340	18421015	NM_122535	hexose transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	F5H14.25	AT2G20780	18399473	NM_127643	putative sugar transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	MPN9_17	AT3G19930	18402419	NM_112883	"monosaccharide transport protein, STP4"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative sugar transporter family	NULL	NULL	MPN9_18	AT3G19940	18402423	NM_112884	"putative monosaccharide transport protein, STP4"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative adenine nucleotide translocase family	NULL	NULL	F5I6_5	AT1G80300	18412749	NM_106679	adenine nucleotide translocase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative adenine nucleotide translocase family	NULL	NULL	T16N11_1	AT1G15500	18394252	NM_101419	"adenine nucleotide translocase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to cationic amino acid transporter 1 family	NULL	NULL	68069_m00156	AT1G31830	18398151	NM_102920	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to cationic amino acid transporter 1 family	NULL	NULL	K20M4_6	AT3G13620	18400078	NM_112208	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to cationic amino acid transporter 1 family	NULL	NULL	F5M6_26	AT1G31820	18398144	NM_102919	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to cationic amino acid transporter 1 family	NULL	NULL	MJJ3_2	AT5G05630	18414946	NM_120645	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to cationic amino acid transporter 1 family	NULL	NULL	T31J18_6	AT3G19553	18402287	NM_112845	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Glycerol-3-phosphate permease like protein family	NULL	NULL	T17A11.9	AT2G13100	18397194	NM_126910	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Glycerol-3-phosphate permease like protein family	NULL	NULL	T21L8_170	AT3G47420	18408420	NM_114610	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Glycerol-3-phosphate permease like protein family	NULL	NULL	dl4810c	AT4G17550	18414912	NM_117861	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Glycerol-3-phosphate permease like protein family	NULL	NULL	T5I8_1	AT1G30560	18397564	NM_102793	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Glycerol-3-phosphate permease like protein family	NULL	NULL	F24A6_60	AT4G25220	18416510	NM_118654	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	T18K17_11	AT1G73220	18410301	NM_105981	putative transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	F3O9_17	AT1G16370	18394352	NM_101503	putative transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	F3O9_19	AT1G16390	18394354	NM_101505	putative transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	F3H11_5	AT3G20660	18402704	NM_112957	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	YUP8H12R_25	AT1G79360	18412346	NM_106584	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter family	NULL	NULL	T8K14_17	AT1G79410	18412366	NM_106589	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	F20B18_290	AT4G26180	18416694	NM_118751	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	MHC9_7	AT3G21390	18402983	NM_113034	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	F5K20_240	AT3G53940	18409956	NM_115254	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	T8P21.20	AT2G37890	18404582	NM_129345	putative mitochondrial carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	F1I16_50	AT3G55640	NULL	NULL	Ca-dependent solute carrier - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	MXK3_20	AT5G64970	18424896	NM_125896	mitochondrial carrier protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	F8B4_100	AT4G32400	18418000	NM_119392	adenylate translocator (brittle-1) - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	ORF12	AT3G51870	NULL	NULL	putative carrier protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	T5E21_9	AT1G14560	18394132	NM_101323	"mitochondrial carrier protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	F7A7_20	AT5G01500	18413636	NM_120228	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Adenylate translocator (brittle-1)-like family	NULL	NULL	MAL21_28	AT3G20240	18402541	NM_112915	"mitochondrial carrier protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	F6D5_2	AT1G73590	18410394	NM_106017	"auxin transporter splice variant b, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	T26J12_14	AT1G23080	18395199	NM_102156	putative auxin transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	F2I9.4	AT2G01420	18379215	NM_126203	putative auxin transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	MUL3_3	AT5G57090	18423935	NM_125091	auxin transport protein EIR1 (gb|AAC39513.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	F2G14_220	AT5G15100	18417566	NM_121514	auxin transport protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	T14N5_17	AT1G77110	18411363	NM_106361	"auxin transport protein EIR1, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	F15H11_14	AT1G70940	18409713	NM_105762	"auxin transport protein REH1, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similarity to auxin transport protein family	NULL	NULL	MQK4_28	AT5G16530	18418004	NM_121659	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	T22J18_12	AT1G22710	18395151	NM_102118	"putative sucrose transport protein, SUC2"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	T6B13.9	AT2G14670	18397594	NM_127031	putative sucrose-proton symporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	T12I7_2	AT1G66570	18408547	NM_105328	"sucrose-proton symporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	T17M13.3	AT2G02860	18395443	NM_126341	putative sucrose-proton symporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	MBL20_5	AT5G06170	18415117	NM_120699	sucrose transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	K9D7_11	AT5G43610	18422349	NM_123727	sucrose transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	F21M12_35	AT1G09960	18391092	NM_100870	putative sucrose/H+ symporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	F17M19_3	AT1G71880	18409937	NM_105846	sucrose transport protein SUC1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sucrose-proton symporter family	NULL	NULL	F17M19_4	AT1G71890	18409940	NM_105847	putative sucrose transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F9K21_230	AT3G45650	18408045	NM_114434	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F9K21_240	AT3G45660	18408047	NM_114435	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T6D9_10	AT3G45680	18408051	NM_114437	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T6D9_20	AT3G45690	18408053	NM_114438	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T6D9_30	AT3G45700	18408055	NM_114439	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T6D9_40	AT3G45710	18408056	NM_114440	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T6D9_50	AT3G45720	18408058	NM_114441	putative transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F5D14_8	AT1G32450	18398439	NM_102980	"peptide transporter PTR2-B, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F15N18_160	AT5G11570	18416602	NM_121195	putative oligopeptide transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F14H20.9	AT2G02020	18395283	NM_126263	putative peptide/amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F14H20.11	AT2G02040	18395288	NM_126265	histidine transport protein (PTR2-B)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MRG21_10	AT5G62680	18424618	NM_125663	peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MQB2_30	AT5G62730	18424625	NM_125668	nitrate transporter NTL1 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T29J13_60	AT5G19640	18419979	NM_121969	peptide transport protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F24J2_10	AT5G28470	18421233	NM_122730	peptide transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MIL23_23	AT3G21670	18403107	NM_113062	nitrate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F23H11_29	AT1G59740	18406454	NM_104667	"oligopeptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F5K20_260	AT3G53960	18409959	NM_115256	transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F24B22_100	AT3G54140	18410002	NM_115274	peptide transport - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T14E10_20	AT3G54450	NULL	NULL	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T8P21.19	AT2G37900	18404585	NM_129346	putative peptide/amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F10C21_11	AT1G33440	18398848	NM_103069	"nitrate transporter NTL1, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F17L22_140	AT4G21680	18415745	NM_118288	peptide transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T22N4_2	AT3G01350	18395789	NM_111001	putative peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T22N19_50	AT5G13400	18417060	NM_121343	peptide transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MSL1_22	AT3G16180	18401042	NM_112489	putative transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T7N9_10	AT1G27040	18396153	NM_102466	"nitrate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T7N9_14	AT1G27080	18396176	NM_102470	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F6A14_2	AT1G18880	18394665	NM_101745	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T17F15_170	AT3G47960	18408545	NM_114665	putative peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F24J5_7	AT1G68570	18409064	NM_105528	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F9I5_4	AT1G52190	18403889	NM_104099	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F2G14_60	AT5G14940	18417520	NM_121498	oligopeptide transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T28K15_13	AT1G12110	18391352	NM_101083	putative cytochrome P450	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T2P4.19	AT2G40460	18405399	NM_129607	putative PTR2 family peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F19K23_13	AT1G62200	18407516	NM_104901	"oligopeptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T17F3_10	AT1G69870	18409390	NM_105655	putative peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T17F3_11	AT1G69860	18409387	NM_105654	putative peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T17F3_12	AT1G69850	18409381	NM_105653	nitrate transporter (NTL1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MJL12_22	AT3G25260	18404488	NM_113432	"nitrate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MJL12_24	AT3G25280	18404497	NM_113434	"nitrate transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F18A8.6	AT2G26690	18401211	NM_128226	putative nitrate transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F28P5_2	AT1G72120	18409996	NM_105870	"oligopeptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T9N14_15	AT1G72130	18409999	NM_105871	"peptide transporter PTR2-B, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	T9N14_16	AT1G72140	18410001	NM_105872	"peptide transporter PTR2-B, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F7J8_160	AT5G01180	18412748	NM_120196	oligopeptide transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F12K8_8	AT1G22570	18395133	NM_102105	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F12K8_11	AT1G22550	18395132	NM_102104	"peptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	F12K8_12	AT1G22540	18395131	NM_102103	"oligopeptide transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MCL19_9	AT5G46040	18422623	NM_123972	peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Similar to LeOPT1 family	NULL	NULL	MCL19_10	AT5G46050	18422624	NM_123973	peptide transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	AUX1 family	NULL	NULL	F26H11.19	AT2G21050	18399569	NM_127675	AUX1-like amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	AUX1 family	NULL	NULL	F16M14.5	AT2G38120	18404641	NM_129368	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	AUX1 family	NULL	NULL	T32E8_2	AT1G77690	18411646	NM_106418	putative AUX1-like permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	AUX1 family	NULL	NULL	F7J8_220	AT5G01240	18412802	NM_120202	LAX1 / AUX1 -like permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F5I14_31	AT1G65550	18408311	NM_105229	"permease 1, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	MQB2_190	AT5G62890	18424641	NM_125683	permease 1 - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F2J10_14	AT1G49960	18402860	NM_103883	"permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	T2K10_8	AT1G60030	NULL	NULL	"permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	K9P8_13	AT5G49990	18423093	NM_124378	permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F20D10_170	AT4G38050	18420166	NM_119966	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	T25M19.4	AT2G05760	18396160	NM_126592	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	T10O24_15	AT1G10540	18391171	NM_100929	putative permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	T9J22.18	AT2G26510	18401150	NM_128208	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F13P17.3	AT2G34190	18403478	NM_128970	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F18G18_160	AT5G25420	18420919	NM_122452	permease 1-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Permease 1-like family	NULL	NULL	F15K20.9	AT2G27810	18401536	NM_128341	putative membrane transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F11I4_17	AT1G48640	18402305	NM_103760	"lysine and histidine specific transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F1O11.22	AT2G36590	18404171	NM_129215	putative proline transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	K1B16_3	AT5G40780	18422024	NM_123443	amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T12J5_50	AT4G35180	18418589	NM_119684	amino acid permease - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F21J9_260	AT1G24400	18395470	NM_102286	putative lysine/histidine-specific permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F19C14_3	AT1G58360	18406263	NM_104616	amino acid permease I	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	K16L22_8	AT5G41800	18422138	NM_123545	amino acid permease-like protein; proline transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F2J7_5	AT1G25530	18395717	NM_102364	"lysine and histidine specific transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F12B7_20	AT1G67640	18408825	NM_105432	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F11P17_1	AT1G61270	NULL	NULL	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	MGI19_5	AT5G63850	18424755	NM_125780	amino acid transporter AAP4 (pir||S51169)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	MNI5_1	AT5G49630	18423050	NM_124341	amino acid permease 6 (emb|CAA65051.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F1I16_150	AT3G55740	18410347	NM_115432	proline transporter 2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F28J7_9	AT3G01760	18395934	NM_111042	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T23G18_9	AT1G08230	18390867	NM_100697	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T28M21.5	AT2G39890	18405193	NM_129547	proline transporter 1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F2P24_9	AT1G77380	18411515	NM_106387	"amino acid carrier, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	MRO11_15	AT5G23810	18420718	NM_122286	amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T27I1_3	AT1G10010	18391098	NM_100875	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F14O23_2	AT1G71680	18409876	NM_105822	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T7O23_19	AT1G44100	18401219	NM_103536	"amino acid permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	T5E8_20	AT5G09220	18415920	NM_120958	amino acid transport protein AAP2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease family	NULL	NULL	F16N3_4	AT1G47670	18401841	NM_103660	"lysine and histidine specific transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F2I11_120	AT5G11230	18416502	NM_121161	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	MLN21_19	AT3G14410	18400380	NM_112300	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F21E1_80	AT5G04160	18414479	NM_120498	phosphate/phosphoenolpyruvate translocator - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	MJJ3_24	AT5G05820	18415016	NM_120664	phosphate/phosphoenolpyruvate translocator protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F14P13_11	AT3G10290	18398822	NM_111864	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	MTO12_2	AT3G17430	18401505	NM_112622	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	T5M16_20	AT1G77610	18411610	NM_106409	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F13B15.18	AT2G25520	18400853	NM_128109	putative phosphate/phosphoenolpyruvate translocator protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	T12C24_29	AT1G12500	18391402	NM_101122	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F22G10_26	AT1G53660	18404569	NM_104244	"phosphate/phosphoenolpyruvate translocator precursor, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F11B9_126	AT3G11320	18399190	NM_111966	"integral membrane protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F24K9_10	AT3G11430	18399231	NM_111976	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F8B4_90	AT4G32390	18417998	NM_119391	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F18G18_140	AT5G25400	18420913	NM_122449	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	T26F17_4	AT1G21870	18395042	NM_102035	"glucose 6 phosphate/phosphate translocator, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative phosphate/phosphoenolpyruvate translocator protein family	NULL	NULL	F21D18_4	AT1G48230	18402102	NM_103720	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleotide-sugar transporter family	NULL	NULL	T10F5.19	AT2G13650	18397300	NM_126944	putative vanadate resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleotide-sugar transporter family	NULL	NULL	F22G5_31	AT1G07290	18390749	NM_100603	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative glucose-6-phosphate/ phosphate-translocator family	NULL	NULL	T24M8_5	AT4G03950	18412416	NM_116633	putative glucose-6-phosphate/phosphate-translocator	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	T21E18_1	AT1G05940	18390591	NM_100475	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	F7J7_60	AT4G21120	18415631	NM_118231	amino acid transport protein AAT1	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	F20D23_19	AT1G17120	18394441	NM_101572	putative amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	MUK11_9	AT5G04770	18414685	NM_120559	amino acid transport - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	F13M14_11	AT3G10600	18398931	NM_111896	putative amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	F20H23_25	AT3G03720	18396644	NM_111243	putative cationic amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	MLF18_60	AT5G36940	18421590	NM_123052	cationic amino acid transporter -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cationic amino acid transporter family	NULL	NULL	F19I3.19	AT2G34960	18403699	NM_129048	putative amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Na+-dependent inorganic phosphate cotransporter-like protein family	NULL	NULL	T27A16.25	AT2G29650	18402110	NM_128519	putative Na+-dependent inorganic phosphate cotransporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Na+-dependent inorganic phosphate cotransporter-like protein family	NULL	NULL	T8P21.3	AT2G38060	18404628	NM_129362	putative Na+-dependent inorganic phosphate cotransporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Na+-dependent inorganic phosphate cotransporter-like protein family	NULL	NULL	F13I12_30	AT3G46980	18408323	NM_114565	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Na+-dependent inorganic phosphate cotransporter-like protein family	NULL	NULL	A_IG005I10_nn	AT4G00370	18411310	NM_116261	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Na+-dependent inorganic phosphate cotransporter-like protein family	NULL	NULL	K9L2_16	AT5G44370	18422434	NM_123804	Na+-dependent inorganic phosphate cotransporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	UDP-galactose transporter related protein-like family	NULL	NULL	F12M12_150	AT3G46180	18408158	NM_114487	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	UDP-galactose transporter related protein-like family	NULL	NULL	mth12_140	AT5G59740	18424275	NM_125366	protein serine /threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	68103_m00109	AT1G57980	18406124	NM_104583	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	68103_m00110	AT1G57990	NULL	NULL	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	MEE6_23	AT5G41160	18422066	NM_123481	purine permease-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F1B16_7	AT1G75470	18410863	NM_106201	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F27D4.13	AT2G24220	18400485	NM_127983	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T32A17_10	AT4G08700	18413146	NM_116940	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F3H9_10	AT1G28230	18396700	NM_102588	purine permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F3H9_11	AT1G28220	18396695	NM_102587	"purine permease, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F6F9_13	AT1G19770	18394783	NM_101833	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F21M12_25	AT1G09860	18391079	NM_100860	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T1B8.6	AT2G33750	18403365	NM_128934	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T12C22_2	AT1G44750	18401313	NM_103556	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T17H7_15	AT1G30840	18397681	NM_102821	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T9A21_30	AT4G18190	18415038	NM_117929	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T9A21_50	AT4G18200	18415040	NM_117930	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T9A21_60	AT4G18210	18415041	NM_117931	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	T9A21_70	AT4G18220	18415045	NM_117932	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Purine permease family	NULL	NULL	F16N3_30	AT1G47590	18401802	NM_103652	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Transporter like protein family	NULL	NULL	NULL	AT2G38460	18404759	NM_129402	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Transporter like protein family	NULL	NULL	T19C21.5	AT2G38460	18404759	NM_129402	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	C17L7_30	AT4G05110	18412809	NM_116750	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	C17L7_40	AT4G05120	18412813	NM_116751	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	C17L7_50	AT4G05130	18412816	NM_116752	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	C17L7_60	AT4G05140	18412819	NM_116753	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	T25B24_2	AT1G61630	18407268	NM_104845	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	T22K18_20	AT3G09990	18398711	NM_111834	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	F17O7_24	AT1G70330	18409506	NM_105701	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative nucleoside transporter family	NULL	NULL	T14P4_12	AT1G02630	18378989	NM_100143	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter-like protein family	NULL	NULL	F23E12_140	AT4G35300	18418647	NM_119696	putative sugar transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter-like protein family	NULL	NULL	F9H16_19	AT1G20840	18394917	NM_101937	putative sugar transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Sugar transporter-like protein family	NULL	NULL	F26O13_130	AT3G51490	18409353	NM_115008	sugar transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	CMP-sialic acid transporter-like protein family	NULL	NULL	F23E12_100	AT4G35340	18418680	NM_119700	UDP-galactose transporter - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	CMP-sialic acid transporter-like protein family	NULL	NULL	K16L22_3	AT5G41760	18422133	NM_123541	CMP-sialic acid transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative Na+ dependent ileal bile acid transporter family	NULL	NULL	T12H17_230	AT4G22840	18416019	NM_118413	predicted protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative Na+ dependent ileal bile acid transporter family	NULL	NULL	MWL2_2	AT3G25410	18404504	NM_113437	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative Na+ dependent ileal bile acid transporter family	NULL	NULL	T30F21_29	AT1G78560	18412022	NM_106503	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative Na+ dependent ileal bile acid transporter family	NULL	NULL	F12C20.6	AT2G26900	18401266	NM_128247	putative Na+ dependent ileal bile acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative Na+ dependent ileal bile acid transporter family	NULL	NULL	F16J13_100	AT4G12030	18413731	NM_117273	putative transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative tetracycline transporter protein family	NULL	NULL	F12A24.15	AT2G16970	18398271	NM_127250	putative tetracycline transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative tetracycline transporter protein family	NULL	NULL	F12A24.16	AT2G16980	18398272	NM_127251	putative tetracycline transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative tetracycline transporter protein family	NULL	NULL	F6P23.2	AT2G16990	18398275	NM_127252	tetracycline transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid transport protein family	NULL	NULL	F22I13_20	AT4G38250	18420205	NM_119987	putative amino acid transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid transport protein family	NULL	NULL	F26K24_19	AT3G11900	18399403	NM_112023	putative amino acid transporter protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid transport protein family	NULL	NULL	K2A18_5	AT5G65990	18425016	NM_125996	amino acid transporter protein-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Amino acid permease	NULL	NULL	F10A8.5	AT2G01170	18379163	NM_126178	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Uracil transporter-like protein	NULL	NULL	NULL	AT2G38100	18404637	NM_129366	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative peptide/amino acid transporter	NULL	NULL	F16M14.3	AT2G38100	18404637	NM_129366	putative peptide/amino acid transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	IAA-alanine resistance protein 1	NULL	NULL	T23K23_5	AT1G68100	18408942	NM_105480	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative cation transport protein	NULL	NULL	F7D11.2	AT2G04620	18395793	NM_126491	putative cation transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Putative tyrosine-specific transport protein	NULL	NULL	F4P9.3	AT2G33260	18403228	NM_128886	putative tyrosine-specific transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	Urea active transporter-like protein	NULL	NULL	MFC19_5	AT5G45380	18422546	NM_123906	urea active transporter-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Organic Solute Cotransporters	The Nucleobase:Cation Symporter-1 (NCS1) Family	NULL	NULL	NULL	AT5G03560	18414269	NM_120437	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Phospholipase D	C2-PLD subfamily	PLD ALPHA 1	NULL	MSJ11.13	AT3G15730	18400879	NM_112443	putative phospholipase D	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD ALPHA 2	NULL	F6D8.21	AT1G52570	18404082	NM_104135	"phospholipase D1, putative"	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD BETA 1	NULL	T6D20.10	AT2G42010	18405863	NM_129765	phospholipase D	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD BETA 2	NULL	F5I10.13	AT4G00240	18411264	NM_116245	"phospholipase D, putative"	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD GAMMA 1	NULL	T26M18.60	AT4G11850	18413693	NM_117255	putative phospholipase D-gamma	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD GAMMA 2	NULL	T26M18.40	AT4G11830	18413683	NM_117252	putative phospholipase D-gamma	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD GAMMA 3	NULL	T26M18.50	AT4G11840	18413688	NM_117254	putative phospholipase D-gamma	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD DELTA	NULL	F4B14.60	AT4G35790	18419667	NM_119745	putative protein	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD EPSILON	NULL	F7A10.25	AT1G55180	18405246	NM_104391	"phospholipase D alpha, putative"	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	C2-PLD subfamily	PLD ZETA	NULL	F18G18.110	AT5G25370	18420910	NM_122446	phospholipase D1-like protein	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	PXPH-PLD subfamily	PLDp1	NULL	MGL6.24;MGL6.27	AT3G16790;AT3G16785	NULL	NULL	NULL	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phospholipase D	PXPH-PLD subfamily	PLDp2	NULL	F18C1.10	AT3G05630	18397303	NM_111436	putative phospholipase D	NULL	NULL	11352	NULL	NULL	NULL	NULL	NULL
Phosphoribosyltransferases (PRT)	PRPP-Amidotransferases	AtpurF1	NULL	f1p15	At2g16570	NULL	AAD26498	catalyzes the first step of the purine biosynthesis localized in chloroplast EC 2.4.2.14	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	PRPP-Amidotransferases	AtpurF2	NULL	T4L20	At4g34740	NULL	CAA18853	catalyzes the first step of the purine biosynthesis localized in chloroplast EC 2.4.2.14	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	PRPP-Amidotransferases	AtpurF3	NULL	T9A14	At4g38880	NULL	CAB38622	catalyzes the first step of the purine biosynthesis localized in chloroplast EC 2.4.2.14	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Adenine Phosphoribosyltransferases	AtAPT1	NULL	F17L21	At1g27450	NULL	AAA20677	involved in purine salvage by catalyzing the conversion of adenine and PRPP to AMP and Ppi EC 2.4.2.7	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Adenine Phosphoribosyltransferases	AtAPT2	NULL	F18B13	At1g80050	NULL	CAA65609	involved in purine salvage by catalyzing the conversion of adenine and PRPP to AMP and Ppi EC 2.4.2.7	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Adenine Phosphoribosyltransferases	AtAPT3	NULL	F7K2	At4g22570	NULL	CAB79212	involved in purine salvage by catalyzing the conversion of adenine and PRPP to AMP and Ppi EC 2.4.2.7	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Adenine Phosphoribosyltransferases	AtAPT4	NULL	T1P17	At4g12440	NULL	CAB78287	involved in purine salvage by catalyzing the conversion of adenine and PRPP to AMP and Ppi EC 2.4.2.7	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Adenine Phosphoribosyltransferases	AtAPT5	NULL	F2I11	At5g11160	NULL	CAB96651	involved in purine salvage by catalyzing the conversion of adenine and PRPP to AMP and Ppi EC 2.4.2.7	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Hypoxanthine-Guanine-Phosphoribosyltransferases	AtHPRT	NULL	F14O23	At1g71750	NULL	AAG41499	involved in purine salvage by catalyzing the conversion of xanthine and PRPP to IMP an Ppi EC 2.4.2.8	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT1	NULL	F14J16	At1g55810	NULL	AAL60039	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT2	NULL	K1G2	At3g27440	NULL	BAA95720	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT3	NULL	K17E12	At3g27190	NULL	BAB02114	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT4	NULL	F5K20	At3g53900	NULL	CAB88352	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT5	NULL	M3E9	At4g26510	NULL	AAL60039	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Phosphoribosyltransferases (PRT)	Uracil Phosphoribosyltransferases	AtUPT6	NULL	MHK7	At5g40870	NULL	BAB11349	involved in pyrimidine salvage by catalyzing the conversion of Uracil and PRPP to UMP and Ppi EC 2.4.2.9	NULL	"PRT's are defined by the protein fold and by a short sequence motive which was identified as the PRPP binding site. This PRT motive is only found in PRTases from the nucleotide synthesis and salvage pathway which catalyze the displacement of PPi from PRPP by  a nitrogen-containing nucleophile, such as ammonia, adenine, guanine, hypoxanthine, xanthine, orotate or uracil, producing a b-substituted ribose-5-phosphate and PPi."	1501417380	NULL	501711882	14977588|12654029	http://www.sanger.ac.uk/cgi-bin/Pfam/getacc?PF00156	Phosphoribosyl transferase domain (Pfam: PF00156)
Plant defensins superfamily	Plant defensins family 1	PDF1.1	NULL	NULL	At1g75830	NULL	NM_106233	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.2a	NULL	NULL	At5g44420	NULL	NM_123809	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.2b	NULL	NULL	At2g26020	NULL	NM_128161	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.2c	NULL	NULL	At5g44430	NULL	NM_123810	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.3	NULL	NULL	At2g26010	NULL	NM_128160	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.4	NULL	NULL	At1g19610	NULL	NM_101817	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 1	PDF1.5	NULL	NULL	At1g55010	NULL	NM_104375	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.1	NULL	NULL	At2g02120	NULL	NM_126272	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.2	NULL	NULL	At2g02100	NULL	NM_126271	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.3	NULL	NULL	At2g02130	NULL	NM_126273	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.4	NULL	NULL	At1g61070	NULL	NM_104778	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.5	NULL	NULL	At5g63660	NULL	NM_125761	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 2	PDF2.6	NULL	NULL	At2g02140	NULL	NM_126274	putative plant defensin gene	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 3	NULL	NULL	NULL	At5g38330	NULL	NM_123194	"putative plant defensin fusion, contains C-terminal plant defensin domain"	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Plant defensins superfamily	Plant defensins family 3	NULL	NULL	NULL	At4g30070	NULL	NM_119153	"putative plant defensin fusion, contains C-terminal plant defensin domain"	NULL	Conserved pattern of eight structure-stabilizing cysteines	10830	NULL	501682461	12447532	NULL	NULL
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F22K18.20	AT4G24780	18416423	NM_118611	putative pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F11F8.12	AT3G09540	18398550	NM_111788	putative pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F12A21.12	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F12F1.22	AT1G11920	18391331	NM_101064	pectate lyase-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F14L17.19	AT1G14420	18394116	NM_101309	"pectate lyase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F17A9.16	AT3G07010	18397805	NM_111581	putative pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F17N18.100	AT4G13210	18413953	NM_117391	pectate lyase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F18A5.100	AT4G13710	18414062	NM_117445	putative pectate lyase A11 (fragment)	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F1N20.180	AT4G22080	18415835	NM_118329	pectate lyase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F1N20.190	AT4G22090	18415837	NM_118330	pectate lyase like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F28P10.100	AT3G54920	18410160	NM_115349	pectate lyase - like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	F2G14_230	AT5G15110	18417569	NM_121515	pectate lyase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	K19E20.1	AT5G48900	18422968	NM_124267	pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	K1G2.11	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	MDC12.15	AT5G63180	18424676	NM_125713	pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	MDF20.16	AT5G55720	18423780	NM_124954	pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	MSD24.4	AT3G24640	18404270	NM_113375	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	MUJ8.14	AT3G24230	18404100	NM_113328	"pectate lyase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T1G11.7	AT1G04680	18390425	NM_100348	putative pectate lyase A11	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T20F6.14	AT2G02720	18395413	NM_126327	putative pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T22N4.10;T4P13.4	AT3G01270	18395764	NM_110993	putative pectate lyase	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T26I12.20	AT3G55140	18410210	NM_115372	pectate lyase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T4D2.120	AT3G53190	18409789	NM_115179	pectate lyase -like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T4K22.5	AT1G30350	18397467	NM_102772	"pectate lyase, putative"	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	T5E8_80	AT5G09280	18415935	NM_120964	major pollen allergen-like protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 1	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	F20D10.150	AT4G38030	18420162	NM_119964	LG127/30 like gene	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	F21M12.27	AT1G09880	18391082	NM_100862	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	F21M12.28	AT1G09890	18391083	NM_100863	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	F21M12.30	AT1G09910	18391085	NM_100865	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	NULL	AT4G37950;AT4G37960	NULL	NULL	hypothetical protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	T22A6.260	AT4G24430	18416343	NM_118576	LG27/30-like gene	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Polysaccharide Lyase Gene Families	Polysaccharide Lyase Family 4	NULL	NULL	T9I22.6	AT2G22620	18400029	NM_127827	unknown protein	NULL	NULL	912146;912144;1012667	NULL	NULL	NULL	http://afmb.cnrs-mrs.fr/CAZY/index.html	CAZy - Carbohydrate-Active enZYmes
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP20	NULL	NULL	NULL	NULL	NULL	NULL	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP19	NULL	T2I1.260	AT5G07550	18415548	NM_120837	glycine-rich protein PUTG1	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP16	NULL	T2I1.250	AT5G07540	18415546	NM_120836	glycine-rich protein atGRP-6	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP17	NULL	T2I1.240	AT5G07530	18415544	NM_120835	glycine-rich protein atGRP-7	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP18	NULL	T2I1.230	AT5G07520	18415538	NM_120834	glycine-rich protein atGRP	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipid-binding oleosin	AtGRP14	NULL	T2I1.220	AT5G07510	18415523	NM_120833	glycine-rich protein	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipase proteins	EXL4	NULL	T4O12.250	AT1G75910	18410964	NM_106241	anter-specific proline-rich -like protein (APG-like)	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	Lipase proteins	EXL6	NULL	T4O12.260	AT1G75930	18410969	NM_106243	anter-specific proline-rich -like protein (APG-like)	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	NULL	NULL	NULL	F21C20.20	AT4G20670	18415545	NM_118185	putative protein	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Pollen Coat Proteome	EF-hand Ca2+ binding protein	EF-hand	NULL	F26F24.33	AT1G23240	18395218	NM_102173	conserved hypothetical protein protein	NULL	experimental	7632;7372;4587	NULL	1346205	NULL	NULL	NULL
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F23A5_1	AT1G80660	18412882	NM_106714	"plasma membrane ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F27H5_120	AT3G60330	18411569	NM_115897	plasma membrane H+-ATPase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	MRG21_9	AT5G62670	18424617	NM_125662	plasma membrane proton ATPase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F20D23_4	AT1G17260	18394459	NM_101587	H+-transporting ATPase AHA10	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	T17F15_180	AT3G47950	18408544	NM_114664	H+-transporting ATPase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F25P17.18	AT2G24520	18400566	NM_128013	putative plasma membrane proton ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	MJB24_16	AT5G57350	18423969	NM_125118	plasma membrane ATPase 3 (proton pump) (sp|P20431)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F9N11_40	AT4G30190	18417545	NM_119165	"H+-transporting ATPase type 2, plasma membrane"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	T12K4_90	AT3G42640	18407252	NM_114131	plasma membrane H+-ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F19F24.16	AT2G18960	18398902	NM_127453	plasma membrane proton ATPase (PMA)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	F9A16.7	AT2G07560	18396595	NM_126721	putative plasma membrane proton ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Plasma membrane H+-ATPase family	NULL	NULL	T5C23_160	AT4G11730	18413642	NM_117242	H+-transporting ATPase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative vacuolar proton-ATPase subunit 1 family	NULL	NULL	T17D12.8	AT2G28520	18401765	NM_128412	putative vacuolar proton-ATPase subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative vacuolar proton-ATPase subunit 1 family	NULL	NULL	F3K23.17	AT2G21410	18399686	NM_127713	putative vacuolar proton-ATPase subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative vacuolar proton-ATPase subunit 1 family	NULL	NULL	F19H22_180	AT4G39080	18420372	NM_120068	putative proton pump	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar H+-pyrophosphatase family	NULL	NULL	F7H2_3	AT1G15690	18394271	NM_101437	"inorganic pyrophosphatase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar H+-pyrophosphatase family	NULL	NULL	F17F16_11	AT1G16780	18394399	NM_101539	"vacuolar-type H+-translocating inorganic pyrophosphatase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar H+-pyrophosphatase family	NULL	NULL	F9K20_2	AT1G78920	18412179	NM_106541	vacuolar-type H+-translocating inorganic pyrophosphatase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	K16N12_9	AT3G27870	18405561	NM_113703	"P-type ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	T20D16.9	AT2G23280	18400224	NM_127892	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F6G3_150	AT4G30120	18417533	NM_119158	cadmium-transporting ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	MDC16_2	AT3G13900	18400206	NM_112244	putative ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F23H11_14	AT1G59820	18406503	NM_104675	"chromaffin granule ATPase II homolog, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F1L3_24	AT1G17500	18394493	NM_101612	"P-type ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F28B23_19	AT1G26130	18395772	NM_102378	"P-type transporting ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	MUG13_22	AT5G04930	18414732	NM_120575	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F24J5_12	AT1G68710	18409099	NM_105543	"ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	T5M7_3	AT3G25610	18404591	NM_113459	"ATPase II, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F3F19_24	AT1G13210	18391486	NM_101192	puative calcium-transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	MLN1_17	AT5G44240	18422420	NM_123791	"ATPase, calcium-transporting"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F20D21_10	AT1G54280	18404863	NM_104306	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Putative P-type ATPase family	NULL	NULL	F28P22_11	AT1G72700	18410159	NM_105929	putative P-type transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	MXL8_3	AT3G21180	18402917	NM_113013	putative P-type transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	T20K9.16	AT2G22950	18400128	NM_127860	putative Ca2+-ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	F5N5_8	AT3G22910	18403575	NM_113191	"calmodulin-stimulated calcium-ATPase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	F27B13_140	AT4G29900	18417488	NM_119136	Ca2+-transporting ATPase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	F28L5_1	AT1G27770	18396483	NM_102542	envelope Ca2+-ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	MUL3_5	AT5G57110	18423938	NM_125093	Ca2+-transporting ATPase-like protein (emb|CAB79748.1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	MAA21_10	AT3G63380	18412752	NM_116203	Ca2+-transporting ATPase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	ACA2	NULL	F19F18_130	AT4G37640	18420089	NM_119927	plasma membrane-type calcium ATPase (ACA2)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	T32G6.8	AT2G41560	NULL	NULL	putative Ca2+-ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	F28O9_180	AT3G57330	18410695	NM_115593	Ca2+-transporting ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Ca2+-transporting ATPase-like protein family	NULL	NULL	MNB8_7	AT5G53010	18423460	NM_124680	Ca2+-transporting ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	T4L20_300	AT4G34720	18418501	NM_119638	vacuolar H+-transporting ATPase 16K chain	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	F10A5_17	AT1G75630	18410900	NM_106215	"vacuolar ATP synthase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	F1P15.11	AT2G16510	18398143	NM_127205	putative vacuolar proton-ATPase 16 kDa proteolipid	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	F6F9_3	AT1G19910	18394798	NM_101846	vacuolar H+-ATPase proteolipid (16 kDa) subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	F3N11.6	AT2G25610	18400882	NM_128119	putative vacuolar ATP synthase proteolipid subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	F19H22_20	AT4G38920	18420339	NM_120052	"H+-transporting ATPase 16K chain P2, vacuolar"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Vacuolar proton-ATPase 16 kDa proteolipid family	NULL	NULL	L23H3_10	AT4G32530	18418030	NM_119405	H+-transporting ATPase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Endoplasmic reticulum-type Ca-ATPase (ECA) family	NULL	NULL	F24B9_9	AT1G07810	18390813	NM_100655	ER-type Ca2+-pump protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Endoplasmic reticulum-type Ca-ATPase (ECA) family	NULL	NULL	F24B9_21	AT1G07670	18390795	NM_100640	endoplasmic reticulum-type calcium-transporting ATPase 4	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Endoplasmic reticulum-type Ca-ATPase (ECA) family	NULL	NULL	T27I1_16	AT1G10130	18391112	NM_100887	putative calcium ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Endoplasmic reticulum-type Ca-ATPase (ECA) family	NULL	NULL	A_TM018A10_4	AT4G00900	18411473	NM_116317	Ca2+-transporting ATPase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Cadmium-transporting ATPase-like family	NULL	NULL	F6G3_140	AT4G30110	18417532	NM_119157	cadmium-transporting ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Cadmium-transporting ATPase-like family	NULL	NULL	T20K24.12	AT2G19110	18398944	NM_127468	putative cadmium-transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Metal-transporting P-type ATPase family	NULL	NULL	K23L20_14	AT5G44790	18422483	NM_123847	ATP dependent copper transporter	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Metal-transporting P-type ATPase family	NULL	NULL	F2K11_17	AT1G63440	18407817	NM_105023	"ATP dependent copper transporter, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Metal-transporting P-type ATPase family	NULL	NULL	F17M5_280	AT4G33520	18418229	NM_119506	metal-transporting P-type ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Cu2+-transporting ATPase-like protein	NULL	NULL	C7A10_90	AT4G37270	18420007	NM_119890	Cu2+-transporting ATPase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	Cation-transporting ATPase	NULL	NULL	MQM1_11	AT5G23630	18420698	NM_122268	cation-transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	MQD22_17	AT5G47030	18422745	NM_124074	ATP synthase delta chain	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	T10P11_25	AT4G02620	18411995	NM_116496	putative vacuolar ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-B1	NULL	T4O12_24	AT1G76030	18410998	NM_106251	anter-specific proline-rich -like protein (APG-like)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-G3	NULL	F20B18_60	AT4G25950	18416652	NM_118728	V-ATPase G-subunit like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-G1	NULL	T13O15_3	AT3G01390	18395803	NM_111005	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-C	NULL	F13K23_7	AT1G12840	18391441	NM_101154	"vacuolar ATP synthase subunit C, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-D	NULL	T20N10_80	AT3G58730	18411019	NM_115735	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	F4M19_10	AT3G42050	18407009	NM_114072	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	F1P15.11	AT2G16510	18398143	NM_127205	putative vacuolar proton-ATPase 16 kDa proteolipid	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	F7H2_4	AT1G15700	18394272	NM_101438	"ATP synthase gamma-subunit, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	T25P22_90	AT4G09650	18413248	NM_117033	H+-transporting ATP synthase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-B2	NULL	F20M13_70	AT4G38510	18420252	NM_120012	probable H+-transporting ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-F	NULL	F22C12_23	AT1G64200	18407994	NM_105094	"H+-transporting ATPase protein, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	MCO15_24	AT5G55290	18423730	NM_124911	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-B3	NULL	F14O10_11	AT1G20260	18394840	NM_101877	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-G2	Vag2	F9D16_180	AT4G23710	18416198	NM_118502	V-ATPase subunit G (vag2 gene)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	T22N19_100	AT5G13450	18417074	NM_121348	delta subunit of mitochondrial F1-ATPase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	T17D12.8	AT2G28520	18401765	NM_128412	putative vacuolar proton-ATPase subunit	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	F10M23_50	AT4G26710	18416809	NM_118805	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	MZN14_21	AT3G28715	18405896	NM_113792	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	NULL	NULL	T15D2_7	AT3G32990	NULL	NULL	putative amino acid permease	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Primary Pumps (ATPases) Gene Families	V-Type ATPase	VHA-E1	NULL	T22B4_130	AT4G11150	18413445	NM_117185	H+-transporting ATPase chain E	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Rad5/16 gene family	At1g02670	NULL	T14P4_33	At1g02670	15217826	NP_171767	unknown protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At1g05120	NULL	yUP8H12_27	At1g05120	15220993	NP_172004	unknown protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At1g11100	NULL	T19D16_2	At1g11100	15220286	NP_172577	transcription factor RUSH-1alpha isolog/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At1g50410	NULL	F11F12_24	At1g50410	18403061	NP_564568	unknown protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At1g61140	NULL	F11P17_13	At1g61140	15219872	NP_176309	unknown protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At3g16600	NULL	MGL6_5	At3g16600	15228256	NP_188282	putative DNA-binding protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At3g20010	NULL	MZE19_6	At3g20010	15231009	NP_188635	"uteroglobin promoter-binding protein, RUSH-1alpha-like, putative/MIPS"	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At5g05130	NULL	MUG13_1	At5g05130	22326612	NP_196132	helicase-like transcription factor-like protein/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At5g22750	NULL	MDJ22_17	At5g22750	10178249	BAB11681	Rad5/TAIR	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	Rad5/16 gene family	At5g43530	NULL	K9D7_2	At5g43530	15239896	NP_199166	DNA repair protein-like/MIPS	NULL	defined by the presence of the helicase/ATPase motives1-6 and the ringfinger domain	1665	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/puchta.htm	Molecular Characterization of the RAD5/RAD16-like Gene Family of Arabidopsis
NULL	RCI2 gene Family	RCI2A	NULL	F10A16	AT3G05880	NULL	AAD17302	hydrophobic protein 	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679459	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2B	NULL	F10A16	AT3G05890	NULL	AAD17303	hydrophobic protein	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679460	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2C	NULL	F25P12	AT1G57550	NULL	NP_176067	Low-temperature-specific protein-related	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679461	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2D	NULL	T29E15	AT2G24040	NULL	NP_179982	Expressed protein.	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679462	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2E	NULL	F17I23	AT4G30650	NULL	NP_194794	Low temperature and salt responsive protein homolog	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679463	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2F	NULL	T10C21	AT4G30660	NULL	NP_194795	Stress responsive protein homolog	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679464	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2G	NULL	T13J8	AT4G28088	NULL	NULL	NULL	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679465	9342870|11299347	NULL	NULL
NULL	RCI2 gene Family	RCI2H	NULL	T7F6	AT2G38905	NULL	NP_565897	Expressed protein	NULL	"Sequence homology, Phylogenetic analyses"	5454	NULL	3029;501679466	9342870|11299347	NULL	NULL
NULL	Receptor kinase-like protein family	NULL	NULL	K15E6_170	AT5G38990	18421817	NM_123261	protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXF12_10	AT5G39000	18421818	NM_123262	protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T1N15_8	AT1G48480	18402208	NM_103744	"protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25L23_280	AT3G59420	18411168	NM_115804	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXF12_40	AT5G39030	18421821	NM_123265	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXF12_40	AT5G46330	18422661	NM_124003	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T21F11_3	AT1G80640	18412880	NM_106712	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25L23_280	AT3G59420	18411168	NM_115804	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F3N23_28	AT1G73080	18410260	NM_105966	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4C21_35	AT4G03390	18412247	NM_116577	putative LRR receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20F21.18	AT2G35620	18403905	NM_129116	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16L24_250	AT3G59700	18411250	NM_115832	serine/threonine-specific kinase lecRK1 precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16L24_280	AT3G59730	NULL	NULL	receptor lectin kinase-like protein (fragment)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16L24_290	AT3G59740	NULL	NULL	receptor lectin kinase 3	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24G16_20	AT3G59750	18411312	NM_115837	receptor lectin kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F15P11_30	AT5G27060	18421075	NM_122588	resistance protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18N11_90	AT3G45330	18407964	NM_114402	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T3B23.8	AT2G28250	18401684	NM_128385	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	M3E9_30	AT4G26540	18416768	NM_118787	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18N11_150	AT3G45390	18407982	NM_114408	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18N11_170	AT3G45410	18407990	NM_114410	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18N11_180	AT3G45420	18407991	NM_114411	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F9K21_10	AT3G45430	NULL	NULL	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F9K21_20	AT3G45440	18407995	NM_114413	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F10M23_30	AT4G26690	18416800	NM_118803	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18C1_8	AT3G05650	18397317	NM_111438	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18C1_7	AT3G05660	18397320	NM_111439	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mfb13_120	AT5G61350	18424458	NM_125528	receptor-like protein kinase precursor - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16L2_70	AT3G45860	18408085	NM_114455	protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1O11.20	AT2G36570	18404166	NM_129213	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9I4.5	AT2G28970	18401913	NM_128456	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9I4.7	AT2G28990	18401921	NM_128458	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16N11_4	AT1G15530	18394255	NM_101422	"receptor lectin kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F3K23.24	AT2G21480	18399714	NM_127720	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16P2.40	AT2G29220	18401979	NM_128478	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16P2.37	AT2G29250	18401994	NM_128481	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T24D18_30	AT1G16110	18394324	NM_101478	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T24D18_20	AT1G16120	18394325	NM_101479	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T24D18_21	AT1G16130	18394326	NM_101480	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T24D18_23	AT1G16150	18394328	NM_101482	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T24D18_24	AT1G16160	18394329	NM_101483	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T6H22_8	AT1G56120	18405693	NM_104490	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F3O9_6	AT1G16260	18394341	NM_101492	putative wall-associated kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MMG15_5	AT3G28040	18405630	NM_113722	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F15A17_170	AT5G03140	18414133	NM_120392	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27J15_13	AT1G49100	18402482	NM_103800	"light repressible receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MFJ20_13	AT3G28450	18405795	NM_113765	receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F3F20_15	AT1G05700	18390558	NM_100450	putative light repressible receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MHC9_2	AT3G21340	18402968	NM_113029	serine/threonine-specific protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F10A8.9	AT2G01210	18379175	NM_126182	putative fructose-bisphosphate aldolase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F14J22_16	AT1G49730	18402760	NM_103860	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MSN9_70	AT5G40170	18421953	NM_123381	disease resistance - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T13P21.18	AT2G14440	18397521	NM_127008	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T27D20_9	AT4G04220	18412504	NM_116660	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T13P21.11	AT2G14510	18397543	NM_127014	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16O9_6	AT1G33260	18398782	NM_103054	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MPO12_90	AT5G40380	18421979	NM_123402	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4P12_80	AT3G53380	18409827	NM_115198	receptor lectin kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MCA23_19	AT5G47850	18422844	NM_124159	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T2N18.19	AT2G37050	18404308	NM_129261	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F5K20_110	AT3G53810	18409925	NM_115241	serine/threonine-specific kinase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F9F13_100	AT4G20450	18415504	NM_118164	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mmi9_50	AT5G62230	18424566	NM_125617	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18A5_210	AT4G13820	18414083	NM_117456	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18A5_290	AT4G13900	18414098	NM_117464	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	dl3000w	AT4G13920	18414101	NM_117466	disease resistance Cf-2 like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4N21_23	AT1G66830	NULL	NULL	receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12M12_260	AT3G46290	NULL	NULL	receptor protein kinase -like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18L15_50	AT3G46330	18408182	NM_114500	receptor-like protein kinase homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18L15_60	AT3G46340	18408184	NM_114501	receptor-like protein kinase homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18L15_70	AT3G46350	18408185	NM_114502	receptor-like protein kinase homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18L15_90	AT3G46370	18408189	NM_114504	receptor-like protein kinase homolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18L15_120	AT3G46400	18408194	NM_114507	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T4O24_2	AT1G66930	18408648	NM_105364	"receptor-like kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T4O24_8	AT1G66910	18408642	NM_105362	"receptor serine/threonine kinase PR5K, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1O19_13	AT1G66970	18408663	NM_105368	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1O19_3	AT1G66980	18408665	NM_105369	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MIL23_19	AT3G21630	18403079	NM_113058	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MLD15_6	AT3G28890	18405968	NM_113810	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F14F18_170	AT5G12000	18416736	NM_121238	putative receptor - like kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F28I16_200	AT5G20050	18420108	NM_122012	receptor-like protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26N6_10	AT4G04490	18412579	NM_116687	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26N6_11	AT4G04500	18412585	NM_116688	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26N6_12	AT4G04510	18412587	NM_116689	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26N6_15	AT4G04540	18412600	NM_116692	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4H6_9	AT4G04570	18412611	NM_116695	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T15J14.12	AT2G15080	18397717	NM_127070	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F11F12_6	AT1G50610	18403140	NM_103943	"receptor-like protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27O10.5	AT2G15300	18397777	NM_127090	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T32N4_9	AT4G04960	18412758	NM_116735	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MDF20_27	AT5G55830	18423791	NM_124965	serine/threonine-specific kinase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	C17L7_120	AT4G05200	18412838	NM_116759	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K24G6_7	AT5G48740	18422949	NM_124251	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F13M22.21	AT2G37710	18404511	NM_129327	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F10A5_14	AT1G75640	18410903	NM_106216	"receptor-like protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20O9_180	AT4G28490	18417206	NM_118991	receptor-like protein kinase 5 precursor (RLK5)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F7J7_170	AT4G21230	18415653	NM_118242	receptor kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T5F17_120	AT4G28670	18417241	NM_119009	serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T4O12_4	AT1G75820	18410941	NM_106232	receptor kinase (CLV1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T6K22_130	AT4G21400	18415687	NM_118260	serine/threonine protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T6K22_140	AT4G21410	18415688	NM_118261	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4F7_17	AT1G25320	18395640	NM_102342	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F23E13_70	AT4G36180	18419796	NM_119785	putative receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19B15_80	AT4G29050	18417318	NM_119049	serine/threonine-specific kinase like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F2J7_14	AT1G25390	18395661	NM_102350	"wall-associated kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1L3_26	AT1G17540	18394499	NM_101616	"receptor-like serine/threonine kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F11A6_17	AT1G17750	18394528	NM_101638	"receptor-like protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9J23.16	AT2G48010	18407505	NM_130368	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F23M19_11	AT1G34210	18399174	NM_103144	"somatic embryogenesis receptor-like kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F2H15_12	AT1G17910	18394549	NM_101654	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F17O14_15	AT3G08680	18398202	NM_111702	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12B7_6	AT1G67510	18408786	NM_105418	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F13I12_140	AT3G47090	18408358	NM_114576	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F13I12_160	AT3G47110	18408361	NM_114578	receptor protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T16O11_20	AT3G08870	18398274	NM_111721	putative serine/threonine protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F7C8_70	AT5G20480	18420227	NM_122055	receptor protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12A21_14	AT1G67720	18408844	NM_105440	"receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T1M15_90	AT5G20690	18420288	NM_122076	receptor protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1P2_120	AT3G47570	NULL	NULL	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1P2_130	AT3G47580	18408456	NM_114626	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20D16.17	AT2G23200	18400196	NM_127884	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F8A5_15	AT1G60630	18406824	NM_104746	putative receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F22G5_4	AT1G07560	18390782	NM_100630	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F22G5_5	AT1G07550	18390781	NM_100629	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20D16.7	AT2G23300	18400232	NM_127894	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MDA7_8	AT5G56040	18423817	NM_124986	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F8A5_31	AT1G60800	18406900	NM_104763	"receptor-like kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F26B6.10	AT2G23450	18400281	NM_127909	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXC7_15	AT3G23110	18403650	NM_113212	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXC7_16	AT3G23120	18403657	NM_113213	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24B9_23	AT1G07650	18390792	NM_100638	"receptor-like serine/threonine kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27L4.5	AT2G23770	18400368	NM_127940	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19C24_3	AT1G51800	18403684	NM_104059	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19C24_24	AT1G51790	18403677	NM_104058	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T29E15.15	AT2G23950	18400419	NM_127957	putative LRR receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MJC20_23	AT5G42120	18422176	NM_123577	receptor lectin kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MPI10_5	AT5G56890	NULL	NULL	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MNI5_4	AT5G49660	18423053	NM_124344	receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K2I5_13	AT5G49760	18423063	NM_124354	receptor protein kinase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K2I5_15	AT5G49780	18423065	NM_124356	receptor protein kinase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19B15_210	AT4G29180	18417348	NM_119062	putative serine/threonine-specific receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T23O15.8	AT2G04300	18395702	NM_126462	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K2A11_3	AT5G05160	18414810	NM_120598	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T22E16_210	AT3G55550	18410303	NM_115412	probable serine/threonine-specific protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F17A13_270	AT4G29450	18417400	NM_119090	serine/threonine-specific receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12L6.2	AT2G39360	18405025	NM_129493	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20M17.8	AT2G31880	18402804	NM_128746	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T7N9_25	AT1G27190	18396236	NM_102481	"receptor kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_20	AT4G23130	18416073	NM_118442	protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_30	AT4G23140	18416075	NM_118443	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_40	AT4G23150	18416078	NM_118444	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T2E12_5	AT1G68400	18409022	NM_105511	putative receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F14P3_22	AT3G02130	18396084	NM_111080	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18O14_25	AT1G19390	18394734	NM_101796	wall-associated kinase 2	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_3	AT1G51820	18403696	NM_104062	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_4	AT1G51830	18403700	NM_104063	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_6	AT1G51850	18403710	NM_104065	"light repressible receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26D22_110	AT5G35380	18421451	NM_122929	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T26D22_120	AT5G35390	18421452	NM_122930	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_7	AT1G51860	18403716	NM_104066	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_9	AT1G51880	18403726	NM_104068	"light repressible receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_10	AT1G51890	18403730	NM_104069	"light repressible receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14L22_13	AT1G51940	18403764	NM_104075	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F23O10_15	AT1G69270	18409231	NM_105594	"receptor protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F22O13_7	AT1G08590	18390915	NM_100732	putative receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19K6_8	AT1G52310	18403968	NM_104110	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F19K23_33	AT1G62090	18407454	NM_104890	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	C7A10_110	AT4G37250	18420003	NM_119888	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T32A17_160	AT4G08850	18413163	NM_116955	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_50	AT4G23160	18416079	NM_118445	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_80	AT4G23190	18416087	NM_118448	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_100	AT4G23210	18416090	NM_118450	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_110	AT4G23220	18416091	NM_118451	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_120	AT4G23230	18416094	NM_118452	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_140	AT4G23250	18416097	NM_118454	protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_170	AT4G23280	18416104	NM_118457	serine /threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_180	AT4G23290	18416108	NM_118458	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_190	AT4G23300	18416111	NM_118459	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21P8_210	AT4G23320	18416118	NM_118461	serine/threonine kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F9D16_210	AT4G23740	18416203	NM_118505	putative receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MPH15_19	AT5G06820	18415331	NM_120765	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F6E21_20	AT4G31100	18417736	NM_119260	serine/threonine-specific protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F6E21_30	AT4G31110	18417740	NM_119261	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MMG4_2	AT5G43020	18422284	NM_123668	receptor kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MOJ9_11	AT5G06940	18415358	NM_120776	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27K19_130	AT3G55950	NULL	NULL	receptor kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F13E7_17	AT3G02880	18396365	NM_111157	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F3M18_12	AT1G28440	18396795	NM_102612	"receptor kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T5P19_20	AT3G56370	18410482	NM_115495	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T6C23_7	AT1G69730	18409354	NM_105641	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T17F3_6	AT1G69910	18409401	NM_105659	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20P5_15	AT1G70130	18409454	NM_105681	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20P5_16	AT1G70110	18409449	NM_105679	"receptor-like kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24L7.20	AT2G32660	18403039	NM_128825	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24L7.18	AT2G32680	18403047	NM_128827	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20P5_33	AT1G69990	18409422	NM_105668	"receptor-like protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MSD24_6	AT3G24660	18404280	NM_113377	putative kinase-like protein TMKL1 precursor	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MQN23_19	AT5G65240	18424927	NM_125922	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MZF18_1	AT5G24100	18420749	NM_122315	(+)-delta-cadinene synthase (d-cadinene synthase)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F13B15.10	AT2G25440	18400829	NM_128101	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	k21l19_30	AT5G58050	18424060	NM_125190	aluminium tolerance associated - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25I18.24	AT2G33020	18403157	NM_128862	putative leucine-rich repeat disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16P17_28	AT1G62950	18407699	NM_104973	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25I18.21	AT2G33050	18403172	NM_128865	putative leucine-rich repeat disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25I18.20	AT2G33060	18403178	NM_128866	putative leucine-rich repeat disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K3G3_1	AT3G25000	NULL	NULL	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K3G3_2	AT3G25010	18404383	NM_113405	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K21L13_11	AT5G65600	18424967	NM_125958	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MCK7_17	AT5G58300	18424086	NM_125215	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1N13_140	AT5G16000	18417851	NM_121605	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MPA24_5	AT5G65700	18424982	NM_125967	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MPA24_6	AT5G65710	18424983	NM_125968	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18P9_40	AT3G42880	18407345	NM_114156	receptor protein kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F17H15.18	AT2G25790	18400944	NM_128139	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F21M12_36	AT1G09970	18391093	NM_100871	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MWL2_10	AT3G25490	18404541	NM_113445	wall-associated serine/threonine kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F5O11_26	AT1G12460	18391397	NM_101118	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MFG13_5	AT5G51350	18423268	NM_124514	receptor protein kinase-like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F8F16_40	AT4G31220	18417757	NM_119271	protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F8F16_70	AT4G31250	18417768	NM_119274	receptor kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T28J14_120	AT5G07180	18415422	NM_120800	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9A14_110	AT4G38830	18420317	NM_120043	receptor-like protein kinase - like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T28J14_220	AT5G07280	18415451	NM_120810	receptor-like protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18O19.20	AT2G43690	18406311	NM_129931	putative receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18O19.19	AT2G43700	18406314	NM_129932	putative receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MEB5_6	AT3G17840	18401661	NM_112665	receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T22F8_10	AT4G39110	18420379	NM_120071	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12M16_32	AT1G53420	18404458	NM_104220	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F9F8_17	AT3G11010	18399082	NM_111938	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T3F20_14	AT1G53440	18404473	NM_104222	receptor-like serine/threonine kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T3F20_15	AT1G53430	18404464	NM_104221	"receptor-like serine/threonine kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F11B9_103	AT3G11080	18399112	NM_111945	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24J13_9	AT1G70520	18409606	NM_105720	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F24J13_10	AT1G70530	18409608	NM_105721	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1N18_70	AT1G29750	18397224	NM_102715	NULL	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F1N18_20	AT1G29740	18397220	NM_102714	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16F4_14	AT1G21250	18394969	NM_101978	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16F4_13	AT1G21240	18394968	NM_101977	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F16F4_12	AT1G21230	18394967	NM_101976	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F11C1_70	AT3G50230	18409045	NM_114883	receptor protein kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T25O11_11	AT5G37450	18421648	NM_123104	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T10K17_40	AT3G57830	18410821	NM_115645	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F4P9.35	AT2G33580	18403321	NM_128918	putative tyrosine-specific transport protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F22C12_19	AT1G64210	18407996	NM_105095	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mnc17_160	AT5G59270	18424215	NM_125317	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20K24.21	AT2G19190	18398963	NM_127476	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27F23.1	AT2G19210	18398968	NM_127478	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F27F23.3	AT2G19230	18398975	NM_127480	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MUD21_3	AT5G66790	18425112	NM_126077	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T19D16_6	AT1G11050	18391232	NM_100978	Ser/Thr protein kinase isolog	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mth12_60	AT5G59660	18424265	NM_125358	serine/threonine-specific protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mth12_70	AT5G59670	18424266	NM_125359	serine/threonine-specific protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mth12_80	AT5G59680	18424267	NM_125360	serine/threonine-specific protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	mth12_100	AT5G59700	18424270	NM_125362	receptor-like protein kinase precursor - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F23K16_30	AT4G39400	18420442	NM_120100	brassinosteroid insensitive 1 gene (BRI1)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T10M13_2	AT4G02010	18411806	NM_116432	putative NAK-like ser/thr protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T11A7.8	AT2G41820	18405815	NM_129746	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MTG13_3	AT5G16590	18418020	NM_121665	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14P8_3	AT4G02410	18411934	NM_116474	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T14P8_4	AT4G02420	18411936	NM_116475	not found	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F2K13_50	AT5G16900	18418124	NM_121696	receptor protein kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MHK10.1	AT2G42290	18405929	NM_129791	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MLD14_2	AT3G19300	18402187	NM_112817	unknown protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T5I8_2	AT1G30570	18397570	NM_102794	putative serine/threonine protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	YUP8H12R_44	AT1G78980	18412212	NM_106547	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F14O23_24	AT1G71830	18409924	NM_105841	protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	YUP8H12R_26	AT1G78940	18412190	NM_106543	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXA21_150	AT5G38260	18421739	NM_123187	receptor serine/threonine protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MXA21_170	AT5G38280	18421741	NM_123189	receptor serine/threonine kinase PR5K	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20B17_5	AT1G79620	18412448	NM_106611	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20B17_27	AT1G79670	18412465	NM_106616	hypothetical protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9N14_3	AT1G72180	18410012	NM_105877	"leucine-rich receptor-like protein kinase, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20B17_10	AT1G79680	18412469	NM_106617	"wall-associated kinase 2, putative"	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MRA19_22	AT5G45780	18422592	NM_123946	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T12H1_33	AT3G05360	18397202	NM_111409	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T12H1_34	AT3G05370	18397208	NM_111410	putative disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20N10_40	AT3G58690	18411009	NM_115731	serine/threonine-specific protein kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T10D10_7	AT1G72460	18410090	NM_105905	putative receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T1N24_21	AT5G25910	18420966	NM_122492	disease resistance protein - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F26O13_190	AT3G51550	18409366	NM_115014	receptor-protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T1N24_22	AT5G25930	18420968	NM_122494	receptor-like protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T18N14_120	AT3G51740	18409414	NM_115033	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T9A21_100	AT4G18250	18415052	NM_117935	receptor serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K3G17_4	AT5G67280	18425172	NM_126128	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	f15l12_130	AT5G60270	18424337	NM_125420	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	f15l12_140	AT5G60280	18424338	NM_125421	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	f15l12_160	AT5G60300	18424340	NM_125423	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	f15l12_170	AT5G60310	18424341	NM_125424	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	k9b18_10	AT5G60320	18424342	NM_125425	receptor-like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25E4_80	AT4G11460	18413559	NM_117217	serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25E4_100	AT4G11480	18413561	NM_117219	serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25E4_110	AT4G11490	18413562	NM_117220	F25E4_110 serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F25E4_150	AT4G11530	18413566	NM_117222	serine/threonine kinase-like protein (fragment)	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F5H14.18	AT2G20850	18399501	NM_127654	putative LRR receptor protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F7A7_60	AT5G01540	18413648	NM_120232	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F7A7_80	AT5G01560	18413663	NM_120234	receptor like protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F17M5_190	AT4G33430	18418210	NM_119497	somatic embryogenesis receptor-like kinase -like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20L15_160	AT5G01890	18413777	NM_120267	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T20L15_220	AT5G01950	18413795	NM_120273	putative protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T7H20_120	AT5G02070	18413827	NM_120285	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	T6B12_2	AT1G47890	18401962	NM_103687	disease resistance protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F20N2_10	AT1G55610	18405451	NM_104437	receptor kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MGH6_18	AT3G13065	18399851	NM_112145	putative protein kinase	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F18D22_60	AT5G10290	18416234	NM_121067	protein serine/threonine kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	MAL21_23	AT3G20190	18402524	NM_112910	receptor kinase protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	F12B17_120	AT5G10530	18416301	NM_121091	lectin-like protein kinase - like	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
NULL	Receptor kinase-like protein family	NULL	NULL	K19E1_12	AT5G53320	18423497	NM_124711	receptor protein kinase-like protein	NULL	"An automated approach was used to select potential membrane sequences from the set of all predicted proteins and cluster the sequences into related families. The majority of integral membrane proteins including transporters, channels, and pumps contain hydrophobic alpha-helices and can be selected based on Trans Membrane Spanning domain prediction. The family names were derived from existing annotation of one or more of the family members. For more information please refer to the following article: Ward, J. (2001) Identification of novel families of membrane proteins from the model plant Arabidopsis thaliana. Bioinformatics, 17, 560-563."	6083	NULL	1346126	NULL	http://www.cbs.umn.edu/arabidopsis/	Arabidopsis Membrane Protein Library
Response Regulator	Response Regulator: A- Type	ARR3	NULL	F23H11.25	AT1G59940	18406549	NM_104686	response regulator 3	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR4	ATRR1	T10O24.8	AT1G10470	18391161	NM_100921	putative response regulator 3	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR5	ATRR2	T17F15.30	AT3G48100	NULL	NULL	response reactor 2 (ATRR2)	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR6	NULL	MQB2.220	AT5G62920	18424644	NM_125686	response regulator 6 (ARR6)	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR7	NULL	F14D16.12	AT1G19050	18394688	NM_101763	"response regulator 5, putative"	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR8	ATRR3	F13H10.14	AT2G41310	18405664	NM_129695	putative two-component response regulator 3 protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR9	ATRR4	F24I3.120	AT3G57040	18410629	NM_115563	responce reactor 4	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR15	NULL	F25A4.14	AT1G74890	18410721	NM_106147	"response regulator 7, putative"	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR16	NULL	T7D17.15	AT2G40670	18405470	NM_129629	putative two-component response regulator protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR17	NULL	T5P19.30	AT3G56380	18410484	NM_115496	response regulator-like protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: A- Type	ARR22	NULL	T6K12.10	AT3G04280	18396834	NM_111299	putative response regulator protein (receiver component)	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR1	NULL	MUH15.1	AT3G16857	18401274	NM_112561	"ARR1 protein, putative"	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR2	NULL	dl4095w	AT4G16110	18414590	NM_117704	hypothetical protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR10	NULL	F10N7.270	AT4G31920	18417909	NM_119343	predicted protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR11	ARP3	F12A21.15	AT1G67710	18408842	NM_105439	F12A21.15	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR12	NULL	F13D4.140	AT2G25180	18400746	NM_128075	putative two-component response regulator protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR13	NULL	T20P8.12	AT2G27070	18401314	NM_128265	putative two-component response regulator protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR14	NULL	T8O11.7	AT2G01760	18379291	NM_126237	putative two-component response regulator protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR18	NULL	k21l19.60	AT5G58080	18424063	NM_125193	ARR2 - like protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR19	NULL	F27J15.4	AT1G49190	18402520	NM_103809	hypothetical protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR20	NULL	F26K9.100	AT3G62670	18412455	NM_116132	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR21	NULL	T28J14.150	AT5G07210	18415433	NM_120803	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: B- Type	ARR23	NULL	MTG10.15	AT5G62120	18424552	NM_125605	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR1	TOC1	mfb13.150	AT5G61380	18424461	NM_125531	pseudo-response regulator 1	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR2	NULL	T6K21.200	AT4G18020	18415008	NM_117912	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR3	NULL	mgo3.8	AT5G60100	18424318	NM_125403	pseudo-response regulator - like	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR4	NULL	K21P3.12	AT5G49240	18423005	NM_124301	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR5	NULL	T31K7.5	AT5G24470	18420796	NM_122355	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR6	NULL	T22E19.16	AT1G68210	18408974	NM_105492	hypothetical protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR7	NULL	F9G14.120	AT5G02810	18414031	NM_120359	hypothetical protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR9	NULL	F19D11.7	AT2G46790	18407170	NM_130245	expressed protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
Response Regulator	Response Regulator: Pseudo	APRR8	NULL	T18A10.1	AT4G00760	18411437	NM_116302	putative protein	NULL	NULL	6184;10719;218;1113137	NULL	NULL	12040183;11574878;12068096	http://genetics.mgh.harvard.edu/sheenweb/	The Sheen Lab
RRE (rapid response to elicitors)	RRE	AtRRE1-ATL9	AtRRE1	f19i3	At2g35000	2044757	AAC12839	zinc finger (C3HC4-type RING finger) family protein	NULL	defined to be genes induced rapidly by elicitors with a ring zinc-finger domain	1501415808	NULL	501712928	15238540	NULL	NULL
RRE (rapid response to elicitors)	RRE	ATL2	AtRRE2	MGL6	At3g16720	3714982	NP_188294	zinc finger (C3HC4-type RING finger) family protein	NULL	defined to be genes induced rapidly by elicitors with a ring zinc-finger domain	1501415808	NULL	501712928	15238540	NULL	NULL
RRE (rapid response to elicitors)	RRE	ATL6	AtRRE3	T12H1 	At3g05200	2096309	NP_566249	zinc finger (C3HC4-type RING finger) family protein(ATL6)	NULL	defined to be genes induced rapidly by elicitors with a ring zinc-finger domain	1501415808	NULL	501712928	15238540	NULL	NULL
RRE (rapid response to elicitors)	RRE	ATL17	AtRRE4	FCAALL	At4g15975	505006474	NM_117690	zinc finger (C3HC4-type RING finger) family protein	NULL	defined to be genes induced rapidly by elicitors with a ring zinc-finger domain	1501415808	NULL	501712928	15238540	NULL	NULL
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL1	 	F14M4_9	At2g47070	30690591	NP_850468	squamosa promoter-binding protein-like 1 (SPL1)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL2	 	MNL12_9	At5g43270	30694251	NP_851122	squamosa promoter binding protein-like 2 (SPL2)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL3	 	T1B8_11	At2g33810	18403387	NP_565771	squamosa promoter binding protein-like 3 (SPL3)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087; 3069	10524240|9301089	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL4	 	F12M16_2	At1g53160	15219210	NP_175723	squamosa promoter-binding protein-like 4 (SPL4)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL5	 	K7L4_7	At3g15270	15232541	NP_188145	squamosa promoter binding protein-like 5 (SPL5)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL6	 	F23O10_24	At1g69170	30697804	NP_177077	squamosa promoter binding protein-like 6 (SPL6)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL7	 	F17K4_80	At5g18830	30687032	NP_850850	squamosa promoter binding protein-like 7 (SPL7)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL8	 	T7I23_32	At1g02065	22329284	NP_683267	squamosa promoter-binding protein-like 8 (SPL8)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087; 501705905	10524240|12671094	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL9	 	T24P15_11	At2g42200	30688933	NP_850365	squamosa promoter binding protein-like 9 (SPL9) 	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL10	 	F17L21_15	At1g27370	22329813	NP_174057	squamosa promoter binding protein-like 10 (SPL10)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL11	 	F17L21_14	At1g27360	18396302	NP_564280	squamosa promoter binding protein-like 11 (SPL11)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL12	 	T2O9_10	At3g60030	15232241	NP_191562	squamosa promoter binding protein-like 12 (SPL12)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL13	 	MBA10_13	At5g50570	30695906	NP_851161	"squamosa promoter-binding protein, putative"	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL14	SPL1-Related2	F9H16_3	At1g20980	15218091	NP_173522	SPL1-Related2 protein (SPL1R2)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL15	 	T10K17_130	At3g57920	15230904	NP_191351	"squamosa promoter-binding protein, putative"	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	NULL	NULL	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
Superfamily of zinc-coordinating DNA-binding proteins	SBP-box family of putative plant transcription factors	AtSPL16	SPL1-Related3	F14G6_18	At1g76580	22330667	NP_177784	SPL1-Related3 protein (SPL1R3)	NULL	defined by the presence of the DNA-binding SBP domain (Pfam profile PF03110)	1435	NULL	1087	10524240	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/Huijser.htm	Functional analysis of the SBP-domain protein family in Arabidopsis thaliana
NULL	Single Myb Histone (SMH)	TRB1	NULL	NULL	AT1G49950	18481419	U83624	Arabidopsis thaliana telomere repeat binding factor 1 (TRB1) mRNA	NULL	"diagnostic triple motif organization: N-termnial myb-like domain, central globular domain of linker histone H1/H5, and C-terminal coiled-coil domain"	3460	NULL	501711232	14576282	http://bio.fsu.edu/~bass/	Hank Bass Lab Homepage
NULL	Single Myb Histone (SMH)	TRB2	NULL	NULL	AT5G67580	18481425	U83837	Arabidopsis thaliana telomere repeat binding factor 2 (TRB2) mRNA	NULL	"diagnostic triple motif organization: N-termnial myb-like domain, central globular domain of linker histone H1/H5, and C-terminal coiled-coil domain"	3460	NULL	501711232	14576282	http://bio.fsu.edu/~bass/	Hank Bass Lab Homepage
NULL	Single Myb Histone (SMH)	TRB3	NULL	NULL	AT3G49850	18481421	U83839	Arabidopsis thaliana telomere repeat binding factor 3 (TRB3) mRNA	NULL	"diagnostic triple motif organization: N-termnial myb-like domain, central globular domain of linker histone H1/H5, and C-terminal coiled-coil domain"	3460	NULL	501711232	14576282	http://bio.fsu.edu/~bass/	Hank Bass Lab Homepage
NULL	Single Myb Histone (SMH)	K9I9.15	NULL	NULL	At1g17520	28950860	BT005290	Arabidopsis thaliana At1g17520 mRNA	NULL	"diagnostic triple motif organization: N-termnial myb-like domain, central globular domain of linker histone H1/H5, and C-terminal coiled-coil domain"	3460	NULL	501711232	14576282	http://bio.fsu.edu/~bass/	Hank Bass Lab Homepage
NULL	Single Myb Histone (SMH)	At1g72740	NULL	NULL	At1g72740	18410172	NM_105933	Arabidopsis thaliana DNA-binding protein -related (At1g72740) mRNA	NULL	"diagnostic triple motif organization: N-termnial myb-like domain, central globular domain of linker histone H1/H5, and C-terminal coiled-coil domain"	3460	NULL	501711232	14576282	http://bio.fsu.edu/~bass/	Hank Bass Lab Homepage
NULL	Subtilisin-like Serine Proteases	AtSubt1.1	NULL	F22M8_15	At1g01900	NULL	AAO22659	"subtilisin-like serine protease, putative, contains similarity to cucumisin-like serine protease"	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	SDD1:STOMATAL DENSITY AND DISTRIBUTION	NULL	F20D22_12	At1g04110 	NULL	NP_563701	"serine-type endopeptidase activity, regulation of cell proliferation, guard mother cell, external side of plasma membrane, ovule stage 1-II, stomatal complex morphogenesis"	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.2	NULL	T20H2_7	At1g20150	NULL	NP_564106	"subtilisin-like serine protease, similar to subtilisin-type protease precursor GI:14150446 from (Glycine max) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.3	NULL	T20H2_26	At1g20160	NULL	NP_564107	"subtilisin-like serine protease, similar to subtilisin-type protease precursor GI:14150446 from (Glycine max) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt2.2	NULL	T5I8_5	At1g30600	NULL	AAM20050	"serine proteinase -related, Strong similarity to gb|U80583 proteinase TMP from Lycopersicon esculentum and is a member of the PF|00082 subtilase family "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.5	NULL	F9L11_11	At1g32940	NULL	NP_564412	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa"	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.4	NULL	F9L11_12	At1g32950	NULL	NP_564413	"subtilisin-like serine protease, contains similarity to SBT1 GI:1771160 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.3	NULL	F9L11_13	At1g32960	NULL	AAM20591	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.2	NULL	F9L11_14	At1g32970	NULL	NP_174573	"subtilase -related, similar to subtilase GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	ALE1:ABNORMAL LEAF SHAPE 	NULL	F24O1_36	At1g62340	NULL	NP_564793	Subtilisin-like serine protease required for epidermal surface formation in embryos and juvenile... 	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.17	NULL	T6J19_4	At1g66220	NULL	NP_564869	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa); contains Pfam profiles: PF00082 Subtilase family (3 copies) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.16	NULL	T6J19_3	At1g66210	NULL	AAO64891	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AIR3	NULL	T16B23.1	At2g04160	NULL	AAK74005	"subtilisin activity, response to auxin stimulus "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt1.8	NULL	T6P5.12	At2g05920	NULL	AAK59595	"subtilisin-like serine protease, putative, contains similarity to cucumisin-like serine protease GI:3176874 from (Arabidopsis thaliana) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	At-SLP3	NULL	T20K24.19	At2g19170	NULL	AAK93686	"serine-type peptidase activity, biological_process unknown, extracellular matrix (sensu Magnoliophyta) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.1	NULL	T5I7.15	At2g39850	NULL	AAM14853	"subtilisin-like serine protease, contains similarity to subtilisin-like protease C1 GI:13325079 from (Glycine max) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt1.4	NULL	MAG2_1	At3g14067	NULL	NP_566473	"subtilisin-like serine protease, putative, contains similarity to cucumisin-like serine protease GI:3176874 from (Arabidopsis thaliana) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt1.5	NULL	MLN21_2	At3g14240	NULL	AAK25839	"subtilisin-like serine protease, contains similarity to SBT1 GI:1771160 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.5	NULL	T6H20_130	At3g46840	NULL	NP_566887	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo); "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.6	NULL	T6H20_120	At3g46850	NULL	NP_566888	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo); "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	XSP1:XYLEM SERINE PEPTIDASE 1	NULL	F6N15_3	At4g00230	NULL	NP_567155	"subtilisin-like serine protease XSP1, identical to subtilisin-type serine endopeptidase XSP1 GI:6708179 from (Arabidopsis thaliana) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.7	NULL	F7L13_90	At4g10510	NULL	CAB78174	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.9	NULL	F7L13_100	At4g10520	NULL	CAB78175	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.10	NULL	F7L13_110	At4g10530	NULL	CAB78176	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.8	NULL	F7L13_120	At4g10540	NULL	CAB78177	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.6	NULL	T4F9_10	At4g10550	NULL	AAM91616	"subtilisin-like serine protease, contains similarity to subtilisin-like protease AIR3 GI:4218991 from (Arabidopsis thaliana) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.2	NULL	dl3561c	At4g15040	NULL	CAB78546	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt2.3	NULL	F9F13_80	At4g20430	NULL	CAB79043	"subtilisin-like serine protease, contains similarity to meiotic serine proteinase TMP GI:6468325 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.1	NULL	T6K22_50	At4g21320	NULL	NP_567623	expressed protein 	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.12	NULL	T6K22.2	At4g21326	NULL	NP_567625	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.14	NULL	F17L22_90	At4g21630	NULL	CAB81270	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.15	NULL	F17L22_100	At4g21640	NULL	CAB81271	"subtilisin-related protease, subtilisin-like protease - Lycopersicon esculentum,AJ006378 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.13	NULL	F17L22_110	At4g21650	NULL	AAM91203	"subtilisin proteinase - like, subtilisin-like proteinase ag12, Alnus glutinosa, PIR2:S52769 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.1	NULL	T25K17_140	At4g26330	NULL	CAB79488	"subtilisin-like serine protease, contains similarity to SBT1, a subtilase from tomato plants GI:1771160 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt2.7	NULL	F6G3_50	At4g30020	NULL	AAM98098	"subtilisin-like serine protease, contains similarity to meiotic serine proteinase TMP GI:6468325 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	At-SLP2	NULL	M4E13_40	At4g34980	NULL	AAL67071	"subtilisin-like serine protease, similar to SBT1, a subtilase from tomato plants GI:1771160 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.15	NULL	F17C15_40	At5g03620	NULL	NP_568124	"subtilisin-like serine protease, contains similarity to subtilisin-type serine endopeptidase XSP1 GI:6708179 from (Arabidopsis thaliana) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt3.11	NULL	F14F18_110	At5g11940	NULL	NP_568255	"subtilisin-like serine protease, contains similarity to subtilase; SP1 GI:9957714 from (Oryza sativa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt2.1	NULL	T29J13_80	At5g19660	NULL	AAM97020	"subtilisin-related protein, subtilisin/kexin isozyme SKI-1 precursor - Rattus norvegicus, EMBL:AF094821 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt2.4	NULL	MFC16_21	At5g44530	NULL	NP_568634	"subtilisin-like serine protease, contains similarity to meiotic serine proteinase TMP GI:6468325 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.6	NULL	MRA19_4	At5g45640	NULL	NP_199377	"subtilisin-related protease, "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.7	NULL	MRA19_5	At5g45650	NULL	AAO64099	"subtilisin-related protease, "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt1.3	NULL	MIO24_12	At5g51750	NULL	AAL87307	"subtilisin-like serine protease, similar to subtilisin-like protease GI:3687307 from (Lycopersicon esculentum) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.10	NULL	k19m22_10	At5g58810	NULL	NC_003076	"subtilisin-like serine protease, pseudogene, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo); non-consensus acceptor site AA at exon 6 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.7	NULL	k19m22_20	At5g58820	NULL	NP_568888	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.8	NULL	k19m22_30	At5g58830	NULL	NP_568889	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.9	NULL	k19m22_40	At5g58840	NULL	AAP40370	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo); non-consensus acceptor site TT at exon 6 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.12	NULL	k18b18_70	At5g59090	NULL	AAM97000	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.4	NULL	k18b18_80	At5g59100	NULL	AAM20556	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.13	NULL	mnc17_10	At5g59120	NULL	AAM13058	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo); non-consensus AA acceptor site at exon 6 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.11	NULL	mnc17_20	At5g59130	NULL	AAO41911	"subtilisin-like serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt4.3	NULL	mnc17_80	At5g59190	NULL	NP_568901	"subtilisin-related serine protease, contains similarity to prepro-cucumisin GI:807698 from (Cucumis melo) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt5.5	NULL	mmn10_30	At5g59810	NULL	NP_200789	"subtilisin-like serine protease, subtilisin-like protease AIR3, Arabidopsis thaliana, EMBL:AF098632 "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	AtSubt1.9	NULL	K21H1_5	At5g67090	NULL	NP_569044	"subtilisin-like serine protease, contains similarity to subtilisin-like protease ag12 GI:757522 from (Alnus glutinosa) "	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Subtilisin-like Serine Proteases	ARA12	NULL	K8K14_8	At5g67360	NULL	AAK25995	subtilisin-like protease that has been located in stem and siliques but not roots	NULL	"A functional characterisation of the subtilase protein family by analysing their expression, subcellular localisation, knockout lines and overexpression"	5124; 611942	NULL	501717692	16193095	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/altmann.htm	NULL
NULL	Sucrose-H+ symporters	 AtSUC1	NULL	F17M19_3	At1g71880	407094	CAA53147	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC2	NULL	T22J18_12	At1g22710	3287687	AAC25515	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC3	AtSUT2	T17M13_3	At2g02860	3461813	AAC32907	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC4	AtSUT4	F21M12_35	At1g09960	8052192	CAB92308	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC5	NULL	F17M19_4	At1g71890	11054577	AAG27852	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC6	NULL	K9D7_11	At5g43610	10178200	BAB11624	sucrose transporter-like protein (non-functional ?)	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC7	NULL	T12I7_2	At1g66570	11054577	AAG27852	sucrose transporter-like protein (non-functional ?)	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC8	NULL	T6B13_9	At2g14670	3810593	AAC69375	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
NULL	Sucrose-H+ symporters	 AtSUC9	NULL	MBL20_5	At5g06170	9759315	BAB09682	sucrose-H+ symporter	NULL	homology to the functionally characterized sucrose transporters AtSUC1 and AtSUC2 (more than 40% identical amino acids)	4935	NULL	501711723	10871900	http://www.biologie.uni-erlangen.de/mpp/TPer/index_TP.shtml	Arabidopsis Sugar Transporter WEB-Site
Sulfurtransferasese / Rhodanese Family	AtStrI	AtStr1	NULL	YUP8H12R_39	At1g79230	5834507	CAB55306	thiosulfate sulfurtransferase 	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrI	AtStr2	NULL	F3O9_26	At1g16460	5817003	CAB53639	thiosulfate sulfurtransferase 	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrII	AtStr3	NULL	MYJ24_5	At5g23060	2351073	BAB09823	similar to unknown protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrII	AtStr4	NULL	F2N1_31	At4g01050	7267588	CAB80914	hypothetical protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIII	AtStr5	NULL	F12E4_220	At5g03455	7378607	CAB83305	putative protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIII	AtStr6	NULL	T12M4_1	At1g09280	15081790	AAK82550	At1g09280/T12M4_1	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIII	AtStr7	NULL	T7D17_6	At2g40760	6598776	AAD32803	unknown protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIII	AtStr8	NULL	F2H15_7	At1g17850	9581914	AAF97265	Contains a Rhodanese-like PF|00581 domain	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIV	AtStr9	NULL	T24P15_13	At2g42220	20196971	AAB88647	hypothetical protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIV	AtStr10	NULL	T16O11_14	At3g08920	12408730	AAF07833	unknown protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrIV	AtStr11	NULL	F22K18_50	At4g24750	4220510	CAA22988	putative protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrV	AtStr12	NULL	F7K24_120	At5g19370	13877804	AAK43980	putative peptidyl-prolyl cis-trans isomerase	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrV	AtStr13	NULL	MCO15_8	At5g55130	4337039	AAD18050	molybdopterin synthase sulphurylase	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrVI	AtStr14	NULL	T29A15	At4g27700	4469002	CAB38282	hypothetical protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrVI	AtStr15	NULL	F8D20_280	At4g35770	1046269	AAA80303	senescence-associated protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrVI	AtStr16	NULL	K2A18_11	At5g66040	2924651	BAB10409	senescence-associated protein sen1-like protein; ketoconazole resistance protein-like	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrVI	AtStr17	NULL	T13L16_13	At2g17850	6598398	AAD03573	putative senescence-associated rhodanese protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Sulfurtransferasese / Rhodanese Family	AtStrVI	AtStr18	NULL	K2A18_25	At5g66170	2924651	BAB10422	senescence-associated protein sen1-like protein	NULL	"A thorough molecular characterisation of several members of the protein family by analysing their expression, subcellular localisation, biochemical properties and function in the organism. All members contain at least one rhodanese signature."	2402	NULL	501682863	12482606	http://www.uni-frankfurt.de/fb15/botanik/mcb/AFGN/papen.htm	AFGN - sulfurtransferase/rhodanese multi protein family
Syntaxin	SYP11 Gene Family	SYP111	KNOLLE	F22O13_4	AT1G08560	18390912	NM_100729	putative syntaxin-related protein (U39451)	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP11 Gene Family	SYP112	NULL	T30D6_23	AT2G18260	18398686	NM_127384	putative syntaxin	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP12 Gene Family	SYP121	NULL	F26K24_11	AT3G11820	18399365	NM_112015	putative syntaxin	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP12 Gene Family	SYP122	NULL	F22O6_220	AT3G52400	18409590	NM_115100	syntaxin-like protein synt4	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP12 Gene Family	SYP123	NULL	F4C21_26	AT4G03330	18412227	NM_116571	SYR1-like syntaxin	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP12 Gene Family	SYP124	NULL	T1F9_22	AT1G61290	18407116	NM_104810	"syntaxin-related protein Nt-syr1, putative"	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP12 Gene Family	SYP125	NULL	T28P6_10	AT1G11250	18391254	NM_100997	"syntaxin-related protein At-SYR1, putative"	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP13 Gene Family	SYP131	NULL	F20H23_28	AT3G03800	18396673	NM_111251	s-syntaxin-like protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP13 Gene Family	SYP132	NULL	T22D6_20	AT5G08080	18415700	NM_120890	syntaxin-like protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP2 Gene Family	SYP21	NULL	F5E19_170	AT5G16830	18418099	NM_121689	syntaxin homologue	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP2 Gene Family	SYP22	NULL	MSD23_4	AT5G46860	18422724	NM_124057	NULL	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP2 Gene Family	SYP23	NULL	dl14901w	AT4G17730	18414952	NM_117882	syntaxin	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP2 Gene Family	NULL	NULL	F27G20_2	AT1G32270	18398356	NM_102960	"syntaxin, putative"	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP3 Gene Family	SYP31	NULL	MJJ3_17	AT5G05760	18414997	NM_120658	t-SNARE SED5 (gb|AAC06291.1)	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP3 Gene Family	SYP32	NULL	K7M2_10	AT3G24350	18404158	NM_113342	syntaxin-like protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP4 Gene Family	SYP41	NULL	F2P16_240	AT5G26980	18421066	NM_122580	tSNARE AtTLG2a	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP4 Gene Family	SYP42	NULL	T10M13_19	AT4G02195	18411870	NM_116452	syntaxin SYP42 (TLG2b) syntaxin SYP42 (TLG2b)	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP4 Gene Family	SYP43	NULL	F18C1_2	AT3G05710	18397335	NM_111445	"putative syntaxin protein, AtSNAP33"	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP5 Gene Family	SYP51	NULL	F3O9.4	AT1G16240	18394338	NM_101490	unknown protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP5 Gene Family	SYP52	NULL	F20B17.2	AT1G79590	18412434	NM_106607	unknown protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP6 Gene Family	SYP61	NULL	F3M18.7	AT1G28490	18396812	NM_102617	hypothetical protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP7 Gene Family	SYP71	NULL	F11F8.33	AT3G09740	18398622	NM_111809	unknown protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP7 Gene Family	SYP72	NULL	F18N11.40	AT3G45280	18407952	NM_114397	putative protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP7 Gene Family	SYP73	NULL	F2A19.50	AT3G61450	18412009	NM_116010	putative protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Syntaxin	SYP8 Gene Family	SYP81	NULL	F19C24_5	AT1G51740	18403652	NM_104052	hypothetical protein	NULL	The Syntaxins are defined by a common protein motif that is known from functional and structural studies.	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SNAP25-like group	SNAP33 Gene Family	SNAP33	NULL	MAF19_6	AT5G61210	18424443	NM_125514	snap25a	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SNAP25-like group	SNAP33 Gene Family	SNAP29	NULL	MXM12_4	AT5G07880	18415639	NM_120870	synaptosomal associated protein SNAP25-like	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SNAP25-like group	SNAP33 Gene Family	SNAP30	NULL	F16A14_10	AT1G13890	18394044	NM_101255	"synaptosomal associated protein (SNAP25A), putative"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	VTI1 Gene Family	VTI11	NULL	MUL8_190	AT5G39510	18421873	NM_123313	v-SNARE AtVTI1a (ZIG)	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	VTI1 Gene Family	VTI12	NULL	T24P13_5	AT1G26670	18396007	NM_102430	"v-SNARE protein AtVTI1b, putative"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	VTI1 Gene Family	VTI13	NULL	MXE2_6	AT3G29100	18406053	NM_113833	putative vesicle transport protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	GOS1 Gene Family	GOS11	NULL	F7H2_21	AT1G15880	18394295	NM_101456	"cis-Golgi SNARE protein, putative"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	GOS1 Gene Family	GOS12	NULL	F4L23_8	AT2G45200	18406728	NM_130083	putative cis-Golgi SNARE protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Brevin Group	Bet1 Gene Family	BET11	NULL	NULL	AT4G14449	NULL	NULL	NULL	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Brevin Group	Bet1 Gene Family	BET12	NULL	dl3265w	AT4G14450	18414218	NM_117524	hypothetical protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	Membrin Gene Family	MEMB11	NULL	T1J8_8	AT2G36900	18404269	NM_129246	putative cis-Golgi SNARE protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	Membrin Gene Family	MEMB12	NULL	MXI22.16	AT5G50440	18423150	NM_124426	golgi SNARE protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	NPSN Gene Family	NPSN11	NULL	T4C15_14	AT2G35190	18403770	NM_129072	unknown protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	NPSN Gene Family	NPSN12	NULL	F11A17_20	AT1G48240	18402106	NM_103721	hypothetical protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Other SNAREs	NPSN Gene Family	NPSN13	NULL	MTO12_3	AT3G17440	18401507	NM_112623	unknown protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	SEC22 Gene Family	SEC22	NULL	F12F1_27	AT1G11890	18391326	NM_101060	putative vesicle transport protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	YKT6 Gene Family	YKT61	NULL	K21L19_5	AT5G58060	18424061	NM_125191	ATGP1	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	YKT6 Gene Family	YKT62	NULL	MCK7_5	AT5G58180	18424074	NM_125203	ATGP1-like protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP71 Gene Family	VAMP711	NULL	F10N7_40	AT4G32150	18417951	NM_119367	synaptobrevin-like protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP71 Gene Family	VAMP712	NULL	T22F11_7	AT2G25340	18400801	NM_128091	putative synaptobrevin	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP71 Gene Family	VAMP713	NULL	F2I11_40	AT5G11150	18416481	NM_121153	putative protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP71 Gene Family	VAMP714	NULL	MWD9_16	AT5G22360	18420468	NM_122141	synaptobrevin-like protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP721	NULL	T1G11_1	AT1G04750	18390431	NM_100353	"putative vesicle-associated membrane protein, synaptobrevin 7B"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP722	NULL	F25I18_14	AT2G33120	18403193	NM_128872	putative synaptobrevin	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP723	NULL	F25I18_15	AT2G33110	18403190	NM_128871	putative synaptobrevin	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP724	NULL	dl3930c	AT4G15780	18414522	NM_117669	SYBL1 like protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP725	NULL	F24L7_19	AT2G32670	18403041	NM_128826	putative synaptobrevin	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP726	NULL	F13M7_25	AT1G04760	18390432	NM_100354	"synaptobrevin 7B, putative"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	VAMP727	NULL	F24B22_260	AT3G54300	18410040	NM_115290	synaptobrevin -like protein	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Longin Group	VAMP72 Gene Family	NULL	NULL	K7P8.18	AT3G24890	18404366	NM_113401	"synaptobrevin, putative"	NULL	"The SNAREs are defined by a common protein motif that is known from functional and structural studies. Almost half of the Arabidopsis SNAREs have now been at least partially characterized in Arabidopsis, always confirming their proposed roles as SNAREs, and helping to verify the assignments for the other members of this gene family."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NSF and SNAP Proteins	alpha-SNAP Gene Family	alpha-SNAP1	NULL	T5P19.100	AT3G56450	18410500	NM_115503	alpha-soluble NSF attachment protein-like	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NSF and SNAP Proteins	alpha-SNAP Gene Family	alpha-SNAP2	NULL	F18O21_150	AT3G56190	NULL	NULL	alpha-soluble NSF attachment protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NSF and SNAP Proteins	gamma-SNAP Gene Family	gamma-SNAP	NULL	F9F13_60	AT4G20410	18415495	NM_118160	putative protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NSF and SNAP Proteins	NSF Gene Family	NSF	NULL	T1J1_4	AT4G04910	18412740	NM_116729	putative component of vesicle-mediated transport	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NULL	AAA-type ATPases	CDC48a	NULL	F8A24_11	AT3G09840	18398658	NM_111819	putative transitional endoplasmic reticulum ATPase	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
NULL	AAA-type ATPases	CDC48b	NULL	T4D2.160	AT3G53230	18409798	NM_115183	CDC48 - like protein	NULL	NULL	711949	NULL	NULL	NULL	NULL	NULL
NULL	AAA-type ATPases	CDC48c	NULL	F12E4.70	AT5G03340	18414192	NM_120412	putative protein	NULL	NULL	711949	NULL	NULL	NULL	NULL	NULL
SEC1 Proteins	KEULE Gene Family	KEULE	NULL	F5O11_8	AT1G12360	18391383	NM_101108	expressed protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SEC1 Proteins	KEULE Gene Family	SEC1a	NULL	T7I23.1	AT1G02010	18378909	NM_100081	hypothetical protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SEC1 Proteins	KEULE Gene Family	SEC1b	NULL	F16J13_190	AT4G12120	18413750	NM_117282	putative protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SEC1 Proteins	VPS33 Gene Family	VPS33	NULL	F28P10_160	AT3G54860	18410148	NM_115343	vacuolar protein sorting protein 33a-like protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SEC1 Proteins	VPS45 Gene Family	VPS45	NULL	T14N5_2	AT1G77140	18411375	NM_106364	vacuolar protein sorting homolog	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
SEC1 Proteins	SLY1 Gene Family	SLY1	NULL	T27K22_15	AT2G17980	18398584	NM_127354	putative SEC1 family transport protein	NULL	"SNARE interactin proteins have been defined based on homology with the proteins in other systems.  This is either functional homology (known for a few) or sequence homology where common motifs are found in the homologues, and the homology is over the entire length of the proteins."	2595	NULL	NULL	NULL	http://www.tc.umn.edu/~sande099/atsnare.htm	Genomic Analysis of Arabidopsis SNAREs and associated proteins
Trehalose Biosynthesis Gene Families	Class I AtTPS	AtTPS2	NULL	F6I1.1	AT1G16980	18394426	NM_101559	"trehalose-6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class I AtTPS	AtTPS3	NULL	F20D23.30	AT1G17000	18394427	NM_101560	"trehalose-6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class I AtTPS	AtTPS4	NULL	T29A15.40	AT4G27550	18417014	NM_118890	trehalose-6-phosphate synthase - like protein	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS5	NULL	dl4920w	AT4G17770	18414959	NM_117886	trehalose-6-phosphate synthase like protein	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS6	NULL	T23K23.13	AT1G68020	18408921	NM_105472	putative trehalose-6-phosphate synthase	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS7	NULL	T2D23.11	AT1G06410	18390648	NM_100521	"trehalose-6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS8	NULL	F1707.18	AT1G70290	18409492	NM_105697	"trehalose-6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS9	NULL	T23E23.3	AT1G23870	18395316	NM_102235	"trehalose 6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS10	NULL	T13D8.4	AT1G60140	NULL	NULL	"trehalose-6-phosphate synthase, putative"	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Class II AtTPS	AtTPS11	NULL	MSF3.8	AT2G18700	18398821	NM_127426	putative trehalose-6-phosphate synthase	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Trehalose Biosynthesis Gene Families	Trehalase	AtTRE1	NULL	T19F6.30	AT4G24040	18416262	NM_118536	trehalase - like protein	NULL	NULL	1325	NULL	1445855	NULL	NULL	NULL
Homeodomain protein	WOX gene family	WUS	NULL	T13L16.18	At2g17950	30680150	NM_127349	99.4% identical to WUSCHELL (GI:4090200) [Arabidopsis thaliana] 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	4120	8565856	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX1	NULL	MEB5.23	At3g18010	37909315	NULL	similar to wuschel protein (GI:22087128) [Arabidopsis thaliana]; similar to HB2 homeodomain protein GB:CAA09367 from [Populus tremula x Populus tremuloides] 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX2	NULL	MNC17.25	At5g59340	37909277	NULL	similar to wuschel protein (GI:22087128) [Arabidopsis thaliana] 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX3	PRS	T8O18.10	At2g28610	37954307	NULL	identical to PRESSED FLOWER (GP:17907768) {Arabidopsis thaliana} 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX4	NULL	F2G19.11	At1g46480	37933927	NULL	similar to wuschel protein (GI:22087128) [Arabidopsis thaliana] 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX5	NULL	F11B9.18	At3g11260	37955171	NULL	similar to wuschel protein (GI:22087128) [Arabidopsis thaliana]; supporting cDNA gi|24953994|gb|AY150812.1| 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX6	NULL	F2I9.12	At2g01500	40889019	NULL	similar to wuschel protein (GI:22087128) [Arabidopsis thaliana] 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX7	NULL	MJJ3.18	At5g05770	18415000	NM_120659	similar to PRESSED FLOWER (GP:17907768) {Arabidopsis thaliana} 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX8	NULL	MCL19.2	At5g45980	37955179	NULL	contains similarity to homeodomain transcription factor; contains weak hit to Pfam profile PF00046: Homeobox domain 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX9	NULL	T1B8.31	At2g33880	37955181	NULL	homeodomain transcription factor -related	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX10	NULL	F2D10.20	At1g20710	18394902	NM_101923	similar to homeodomain protein PALE-2 (GI:20152544) [Arabidopsis thaliana]; contains Pfam profile: PF00046 homeobox domain 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX11	NULL	T12J13.6	At3g03660	37955222	NULL	similar to to PRESSED FLOWER (GP:17907768) {Arabidopsis thaliana} 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX12	NULL	MVA3.17	At5g17810	37955224	NULL	similar to to PRESSED FLOWER (GP:17907768) {Arabidopsis thaliana}; 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX13	NULL	F8D20.60	At4g35550	37955226	NULL	HB2 homeodomain protein [Populus tremula x Populus tremuloides] GI:3955021; contains Pfam PF00046: Homeobox domain 	NULL	WUS homeodomain subtype	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
Homeodomain protein	WOX gene family	WOX14	NULL	F2D10.19	At1g20700	30686973	NM_101922	strong similarity to homeodomain protein PALE-2 (GI:20152544) [Arabidopsis thaliana]; contains Pfam profile: PF00046 homeobox domain 	NULL	WUS homeodomain subtype and WUS-box motif	5630	NULL	501711727	14711878	http://www.biologie.uni-freiburg.de/LauxLab/	Functional genomics
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY1	ZAP1	F1O13.1	AT2G04880	18395890	NM_126520	transcription factor ZAP1	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY2	NULL	MXK23.1	AT5G56270	18423845	NM_125010	transcription factor NtWRKY4-like	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY3	NULL	T4M8.23	AT2G03340	18395535	NM_126385	putative WRKY DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY4	NULL	F7A19.5	AT1G13960	18394052	NM_101262	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY10	NULL	F20N2.22	AT1G55600	18405446	NM_104436	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY19	NULL	F16J13.90	AT4G12020	18413730	NM_117272	putative disease resistance protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY20	NULL	T15N24.90	AT4G26640	18416791	NM_118798	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY25	NULL	T9D9.6	AT2G30250	18402302	NM_128578	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY26	NULL	T28J14.40	AT5G07100	18415398	NM_120792	SPF1-like protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY32	NULL	F6I18.160	AT4G30930	18417695	NM_119240	NULL	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY33	NULL	T19C21.4	AT2G38470	18404763	NM_129404	NULL	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY34	NULL	M3E9.130	AT4G26440	18416751	NM_118777	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY44	TTG2	F3G5.5	AT2G37260	18404365	NM_129282	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY45	NULL	F1C9.25	AT3G01970	18396014	NM_111063	putative WRKY-like transcriptional regulator protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY58	NULL	T4P13.24	AT3G01080	18395699	NM_110973	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group I	AtWRKY73	NULL	EST (AV526908)	NULL	NULL	NULL	NULL	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-a	AtWRKY18	NULL	F28M20.10	AT4G31800	18417876	NM_119329	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-a	AtWRKY40	NULL	F23A5.19	AT1G80840	18412903	NM_106732	"transcription factor, putative"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-a	AtWRKY60	NULL	F27C12.8	AT2G25000	18400694	NM_128058	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY6	NULL	F19K23.22	AT1G62300	18407553	NM_104910	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY9	NULL	T22E19.22	AT1G68150	18408959	NM_105485	putative DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY31	NULL	F1N20.170	AT4G22070	18415832	NM_118328	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY36	NULL	T17F3.16	AT1G69810	18409373	NM_105649	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY42	NULL	T26N6.6	AT4G04450	18412569	NM_116683	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY47	NULL	T15B16.12	AT4G01720	18411712	NM_116402	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY61	NULL	F6A14.5	AT1G18860	18394663	NM_101743	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-b	AtWRKY72	NULL	F8M21.20	AT5G15130	18417577	NM_121517	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY8	NULL	MPL12.15	AT5G46350	18422664	NM_124005	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY12	NULL	AC003672	NULL	NULL	NULL	NULL	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY13	NULL	F23K16.40	AT4G39410	18420444	NM_120101	putative WRKY DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY23	NULL	MXK23.1	AT5G56270	18423845	NM_125010	transcription factor NtWRKY4-like	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY24	NULL	MBK23.9	AT5G41570	18422110	NM_123521	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY28	NULL	T9A21.10	AT4G18170	18415035	NM_117927	DNA binding-like protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY43	NULL	T3F17.40	AT2G46130	18406980	NM_130175	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY48	NULL	K6M13.6	AT5G49520	18423035	NM_124329	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY49	NULL	MNL12.11	AT5G43290	18422315	NM_123695	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY50	NULL	T19G15.20	AT5G26170	18420996	NM_122518	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY51	NULL	MXK3.3	AT5G64810	18424868	NM_125877	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY56	NULL	F22C12.23	AT1G64000	18407938	NM_105073	"WRKY DNA binding protein, putative"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY57	NULL	F23O10.11	AT1G69310	18409242	NM_105598	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY59	NULL	F7D8.22	AT2G21900	18399826	NM_127759	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY68	NULL	T12C14.40	AT3G62340	18412337	NM_116099	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY71	NULL	F1N18.10	AT1G29860	18397271	NM_102726	"DNA-binding protein, putative"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-c	AtWRKY75	NULL	T19L5.40	AT5G13080	18416953	NM_121311	WRKY-like protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY7	NULL	F1O13.1	AT2G04880	18395890	NM_126520	transcription factor ZAP1	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY11	NULL	F3L17.120	AT4G31550	18417828	NM_119304	putaive DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY15	NULL	T20D16.5	AT2G23320	18400236	NM_127896	putative WRKY-type DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY17	NULL	F25P17.13	AT2G24570	18400579	NM_128018	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY21	NULL	T6B20.6	AT2G30590	18402396	NM_128611	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY39	NULL	F7O18.30	AT3G04670	18396970	NM_111339	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-d	AtWRKY74	NULL	F4I4.30	AT5G28650	18421251	NM_122748	DNA-binding protein - like	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY14	NULL	T5I8.10	AT1G30650	18397605	NM_102802	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY16	NULL	K21C13.24	AT5G45050	18422510	NM_123873	disease resistance protein-like	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY22	NULL	F2N1.6	AT4G01250	18411582	NM_116355	putative DNA-binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY27	NULL	MXC20.5	AT5G52830	18423434	NM_124661	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY29	NULL	F9D16.20	AT4G23550	18416170	NM_118486	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY35	NULL	F19I3.6	AT2G34830	18403669	NM_129036	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY65	NULL	F28N24.4	AT1G29280	18397024	NM_102668	"DNA binding protein, putative"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group II-e	AtWRKY69	NULL	T20N10.60	AT3G58710	18411014	NM_115733	DNA-binding WRKY - like protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY30	NULL	MLE8.3	AT5G24110	18420750	NM_122316	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY38	NULL	MQJ16.11	AT5G22570	18420538	NM_122163	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY41	NULL	T22B4.50	AT4G11070	18413418	NM_117177	"other putative proteins, Arabidopsis thaliana"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY46	NULL	F11C10.23	AT2G46400	18407066	NM_130204	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY52	RRS1	K9E15.3	AT5G45270	18422532	NM_123895	unknown protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY53	NULL	F9D16.280	AT4G23810	18416215	NM_118512	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY54	NULL	T7D17.7	AT2G40750	18405493	NM_129637	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY55	NULL	T7D17.8	AT2G40740	18405490	NM_129636	putative WRKY-type DNA binding protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY62	NULL	T20L15.170	AT5G01900	18413779	NM_120268	putative protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY63	NULL	T12I7.5	AT1G66600	18408554	NM_105331	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY64	NULL	F28G11.2	AT1G66560	18408543	NM_105327	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY66	NULL	T21F11.8	AT1G80590	18412873	NM_106707	hypothetical protein	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY67	NULL	F28G11.3	AT1G66550	NULL	NULL	"wrky-type DNA binding protein, putative"	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
WRKY Transcription Factor Superfamily	WRKY Transcription Factor; Group III	AtWRKY70	NULL	T5P19.50	AT3G56400	18410492	NM_115498	DNA-binding protein-like	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
NULL	WRKY Transcription Factor; Unclassified	AtWRKY5	NULL	NULL	NULL	NULL	NULL	NULL	NULL	NULL	4955	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/~somssich/wrky_webpage/wrky_family/wrky_family.index.html	The WRKY Transcription Factor Superfamily
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT1	FT1	T18E12.11	AT2G03220	18395508	NM_126373	xyloglucan fucosyltransferase	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT2	NULL	NULL	AT2G03210	18395504	NM_126372	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT3	NULL	F1M20.10	AT1G74420	18410610	NM_106102	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT4	NULL	F26H6.9	AT2G15390	18397803	NM_127099	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT5	NULL	F26H6.11	AT2G15370	18397799	NM_127097	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT6	NULL	F7A19.16	AT1G14080	18394065	NM_101273	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT7	NULL	F7A19.15	AT1G14070	18394064	NM_101272	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT8	NULL	F7A19.18	AT1G14100	18394067	NM_101275	hypothetical protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT9	NULL	F7A19.19	AT1G14110	18394068	NM_101276	hypothetical protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT10	NULL	F26H6.13	AT2G15350	18397794	NM_127095	unknown protein	NULL	NULL	511936;4257;10689;10747;807;5864	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT11	FucTA;FucT1	MVI11.20	AT3G19280	18402182	NM_112815	"fucosyltransferase, putative"	"Core alpha1,3-fucosyltransferase"	NULL	211716	NULL	1546224	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT12	FucTB;FucT2	F14J22.8	AT1G49710	18402753	NM_103858	"fucosyltransferase c3 protein, putative"	"AtFUT12 also has a core alpha1,3-fucosyltransferase activity"	NULL	211716	NULL	NULL	NULL	NULL	NULL
NULL	Family of Arabidopsis genes related to Xyloglucan Fucosyltransferase1	AtFUT13	FucTC;FT4-M	F17M19.14	AT1G71990	18409962	NM_105857	hypothetical protein	"AtFUT13 encodes a Lewis-type alpha1,4-fucosyltransferase"	NULL	211716	NULL	NULL	NULL	NULL	NULL
NULL	Single gene-encoded CBPs	Hypothetical	NULL	NULL	At5g04020	18414427	NM_120484	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	PKC substrate-like	NULL	NULL	At5g56360	18423855	NM_125019	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Photosystem I-N	NULL	NULL	At5g64040	18424780	NM_125800	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Hypothetical	NULL	NULL	At2g38800	18404862	NM_129437	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	KCBP	NULL	NULL	At5g65930	18425008	NM_125990	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	ATPase	NULL	NULL	At3g56690	18410554	NM_115528	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Chaperonin 10	NULL	NULL	At5g20720	18420295	NM_122079	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Glyoxalase	NULL	NULL	At1g08110	18390855	NM_100687	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Apyrase	NULL	NULL	At3g04080	18396762	NM_111279	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Multidrug-resistant-like	NULL	NULL	At2g36910	18404272	NM_129247	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Single gene-encoded CBPs	Ser/Thr phosphatase PP7	NULL	NULL	At5g63870	18424757	NM_125782	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	SAURs	SAUR.a	NULL	NULL	At3g43120	18407445	NM_114180	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	SAURs	SAUR.b	NULL	NULL	At5g20810	18420318	NM_122088	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	SAURs	SAUR.c	NULL	NULL	At4g31320	18417783	NM_119281	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	SAURs	SAUR.d	NULL	NULL	At2g24400	18400535	NM_128001	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	SAURs	SAUR.e	NULL	NULL	At4g34750	18418507	NM_119641	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Hypothetical proteins	Hypothetical.a	NULL	NULL	At3g25030	18404388	NM_113407	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Hypothetical proteins	Hypothetical.b	NULL	NULL	At4g13100	18413925	NM_117379	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.a	NULL	NULL	At5g62570	18424604	NM_125651	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.b	NULL	NULL	At5g57580	18423995	NM_125139	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.c	NULL	NULL	At2g18750	18398835	NM_127431	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.d	NULL	NULL	At4g25800	18416621	NM_118712	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.e	NULL	NULL	At2g24300	18400512	NM_127992	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.f	NULL	NULL	At4g31000	18417718	NM_119250	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACBP60s	ACBP60-like.g	NULL	NULL	At5g26920	18421060	NM_122574	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC1.a	NULL	NULL	At5g53130	18423474	NM_124692	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC2.b	NULL	NULL	At5g15410	18417659	NM_121545	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC3.c	NULL	NULL	At2g46430	18407072	NM_130207	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC4.d	NULL	NULL	At5g54250	18423607	NM_124805	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC5.e	NULL	NULL	At5g57940	18424047	NM_125179	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC6.f	NULL	NULL	At2g23980	18400425	NM_127960	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.g	NULL	NULL	At1g01340	18378826	NM_100016	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.h	NULL	NULL	At2g46440	18407076	NM_130208	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.i	NULL	NULL	At2g24610	18400590	NM_128022	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.j	NULL	NULL	At2g28260	18401686	NM_128386	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.k	NULL	NULL	At3g48010	18408558	NM_114670	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.l	NULL	NULL	At4g01010	18411506	NM_116329	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.m	NULL	NULL	At4g30360	18417578	NM_119182	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.n	NULL	NULL	At4g30560	18417619	NM_119202	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.o	NULL	NULL	At5g14870	18417497	NM_121491	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.p	NULL	NULL	At1g15990	18394308	NM_101467	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.q	NULL	NULL	At1g19780	18394784	NM_101834	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.r	NULL	NULL	At2g46450	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.s	NULL	NULL	At3g17690	18401604	NM_112650	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CNGCs	CNGC-like.t	NULL	NULL	At3g17700	18401605	NM_112651	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.a	NULL	NULL	At2g22300	18399931	NM_127795	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.b	NULL	NULL	At5g09410	18415969	NM_120978	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.c	NULL	NULL	At5g64220	18424801	NM_125818	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.d	NULL	NULL	At1g67310	18408737	NM_105399	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.e	NULL	NULL	At3g16940	18401309	NM_112570	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EICBPs	EICBP.f	NULL	NULL	At4g16150	18414601	NM_117710	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Pirin-like proteins	Pirin-like.a	NULL	NULL	NULL	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Pirin-like proteins	Pirin-like.b	NULL	NULL	At3g59220	18411120	NM_115784	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Pirin-like proteins	Pirin-like.c	NULL	NULL	At3g59260	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Pirin-like proteins	Pirin-like.d	NULL	NULL	At1g50590	18403130	NM_103941	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Hypothetical proteins	Hypothetical.a	NULL	NULL	At5g40190	18421955	NM_123383	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	Hypothetical proteins	Hypothetical.b	NULL	NULL	At3g28140	18405659	NM_113732	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	PCBPs	APCBP.a	NULL	NULL	At2g43040	18406133	NM_129865	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	PCBPs	APCBP.b	NULL	NULL	At1g27460	18396346	NM_102510	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	PCBPs	APCBP.c	NULL	NULL	At4g28600	18417228	NM_119002	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CB-HSPs	CB-HSP.a	NULL	NULL	At3g49050	18408765	NM_114764	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CB-HSPs	CB-HSP.b	NULL	NULL	At4g00500	18411353	NM_116274	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	CB-HSPs	CB-HSP.c	NULL	NULL	At5g37710	18421679	NM_123130	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	GAD	GAD1.a	NULL	NULL	At5g17330	18418267	NM_121739	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	GAD	GAD2.b	NULL	NULL	At1g65960	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	GAD	GAD.c	NULL	NULL	At2g02010	18395281	NM_126262	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	GAD	GAD.d	NULL	NULL	At3g17760	18401634	NM_112657	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	GAD	GAD.e	NULL	NULL	At2g02000	18395279	NM_126261	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA1.a	NULL	NULL	At1g27770	18396483	NM_102542	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA2.b	NULL	NULL	At4g37640	18420089	NM_119927	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA.c	NULL	NULL	At3g57330	18410695	NM_115593	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA4.d	NULL	NULL	At2g41560	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA7.e	NULL	NULL	At2g22960	18400129	NM_127861	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA8.f	NULL	NULL	At5g57110	18423938	NM_125093	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA9.g	NULL	NULL	At3g21180	18402917	NM_113013	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA10.h	NULL	NULL	At4g29900	18417488	NM_119136	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA.i	NULL	NULL	At5g53010	NULL	NULL	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA.j	NULL	NULL	At3g63380	18412752	NM_116203	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA.k	NULL	NULL	At3g22910	18403575	NM_113191	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ACA.l	NULL	NULL	At1g13210	18391486	NM_101192	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	ACA	ECA3.m	NULL	NULL	At1g10130	18391112	NM_100887	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	PPI	PPI.a	NULL	NULL	At3g25230	18404476	NM_113429	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	PPI	PPI.b	NULL	NULL	At5g48570	18422930	NM_124233	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EF-1alpha	EF-1alpha.a	NULL	NULL	At5g60390	18424350	NM_125432	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EF-1alpha	EF-1alpha.b	NULL	NULL	At1g07920	18390826	NM_100666	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EF-1alpha	EF-1alpha.c	NULL	NULL	At1g07930	18390828	NM_100667	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EF-1alpha	EF-1alpha.d	NULL	NULL	At1g07940	18390830	NM_100668	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	TGA3-like	TGA3.a	NULL	NULL	At1g22070	18395067	NM_102057	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	TGA3-like	TGA3-like.b	NULL	NULL	At1g77920	18411747	NM_106441	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	TGA3-like	TGA1.c	NULL	NULL	At5g10030	18416161	NM_121041	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	TGA3-like	TGA1b.d	NULL	NULL	At5g65210	18424924	NM_125919	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	60S ribosomal L19 proteins	RibosomalL19.a	NULL	NULL	At3g16780	18401244	NM_112551	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	60S ribosomal L19 proteins	RibosomalL19.b	NULL	NULL	At4g02230	18411886	NM_116456	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	60S ribosomal L19 proteins	RibosomalL19.c	NULL	NULL	At1g02780	18379006	NM_100157	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.a	NULL	NULL	At3g12580	18399673	NM_112093	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.b	NULL	NULL	At5g02500	18413939	NM_120328	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.c	NULL	NULL	At3g09440	18398513	NM_111778	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.d	NULL	NULL	At5g02490	18413937	NM_120327	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.e	NULL	NULL	At1g16030	18394315	NM_101471	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	HSP70s	HSP70.f	NULL	NULL	At1g56410	18405818	NM_104519	NULL	NULL	protein-protein interaction approach to identify calmodulin-binding proteins in Arabidopsis	711946	NULL	1546140	11782485	NULL	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g02150	18378926	NM_100095	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g06220	18390627	NM_100503	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At5g25230	18420896	NM_122432	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g17090	18394437	NM_101569	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g55040	18405189	NM_104378	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g74430	18410612	NM_106103	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At2g03150	18395492	NM_126366	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At5g40690	18422014	NM_123434	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At3g13500	18400041	NM_112196	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g69030	18409180	NM_105574	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At3g59820	NULL	NULL	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g73440	18410356	NM_106003	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At3g07740	18398043	NM_111653	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At5g06260	18415146	NM_120708	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At4g00140	18411233	NM_116231	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g20760	18394907	NM_101928	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g21630	18395011	NM_102012	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At3g20290	18402560	NM_112920	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At4g05520	18412956	NM_116790	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g47550	18401783	NM_103648	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At1g47560	18401788	NM_103649	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At3g59270	18411131	NM_115789	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group I	NULL	NULL	NULL	At5g41840	18422144	NM_123549	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g02270	18378940	NM_100107	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g54130	18423594	NM_124793	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g46830	18422721	NM_124054	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g05150	18390485	NM_100393	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At2g32450	18402973	NM_128804	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At2g35380	18403818	NM_129090	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g20490	18394868	NM_101899	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g20510	18394870	NM_101901	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g21540	18395000	NM_102003	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g23160	18395209	NM_102164	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g04860	18397033	NM_111358	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g28150	18421199	NM_122698	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g44780	18401332	NM_103559	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g01780	18395939	NM_111044	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g02270	18396127	NM_111094	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g64060	18424782	NM_125802	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g05110	18412809	NM_116750	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g05120	18412813	NM_116751	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g05140	18412819	NM_116753	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g22840	18420609	NM_122189	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g12120	18416776	NM_121250	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g64850	18408143	NM_105159	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g46220	18408164	NM_114491	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g44330	18407760	NM_114301	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g21130	18420411	NM_122121	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g14270	18400333	NM_112285	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g32010	18406800	NM_114024	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g32880	18406945	NM_114056	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At3g32970	NULL	NULL	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g08080	18413077	NM_116877	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g08050	18413072	NM_116874	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At4g03790	18412371	NM_116617	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g80680	18412884	NM_106716	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At2g30110	18402263	NM_128566	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g46360	18422665	NM_124006	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g46370	18422666	NM_124007	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	KCO1	NULL	NULL	At5g55630	18423769	NM_124945	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At2g35800	18403960	NM_129139	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g07320	18415461	NM_120814	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g51050	18423230	NM_124484	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g61810	18424511	NM_125575	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At1g33790	18398982	NM_103098	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g28340	18421219	NM_122717	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g28380	18421224	NM_122721	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	AtPLC1	NULL	NULL	At5g58670	18424131	NM_125254	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	ATFIM1	NULL	NULL	At4g26700	18416807	NM_118804	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group II	NULL	NULL	NULL	At5g55400	18423742	NM_124922	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g03960	18379191	NM_100277	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g44090	18422405	NM_123776	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g54450	18404942	NM_104323	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g28850	18421274	NM_122769	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g28900	18421280	NM_122774	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g18580	18418837	NM_121863	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	AtCP1	NULL	NULL	At5g49480	18423031	NM_124325	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g32410	18398419	NM_102975	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At3g18430	18401886	NM_112728	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL8	NULL	NULL	At1g64480	18408059	NM_105123	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL4	NULL	NULL	At5g24270	18420769	NM_122333	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g33000	18418132	NM_119454	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL6	NULL	NULL	At4g16350	18414639	NM_117730	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL3	NULL	NULL	At5g55990	18423812	NM_124981	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL7	NULL	NULL	At4g26560	18416775	NM_118790	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL2	NULL	NULL	At4g26570	18416779	NM_118791	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL1	NULL	NULL	At4g17615	18414930	NM_117870	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL9	NULL	NULL	At5g47100	18422754	NM_124081	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	CBL5	NULL	NULL	At4g01420	18411633	NM_116372	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g54530	NULL	NULL	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At2g44310	18406506	NM_129995	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g28830	18421270	NM_122766	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g22760	18420600	NM_122182	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g38810	18420314	NM_120041	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g13440	18414008	NM_117418	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g32060	18417935	NM_119358	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g39420	18420445	NM_120102	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g29020	18396915	NM_102643	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At2g34020	18403422	NM_128953	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At2g34030	18403426	NM_128954	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At1g53210	18404376	NM_104200	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g25970	18416655	NM_118730	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g57190	18423950	NM_125101	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	KIC	NULL	NULL	At2g46600	NULL	NULL	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g27280	18416959	NM_118862	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g54490	18423634	NM_124829	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At3g17470	18401527	NM_112627	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g62250	18424568	NM_125619	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At4g27790	18417064	NM_118917	NULL	EF-hands number:6	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group III	NULL	NULL	NULL	At5g08580	18415882	NM_120945	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g05990	18390597	NM_100479	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At4g03290	18412213	NM_116567	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At2g43290	18406201	NM_129891	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g59440	18411173	NM_115806	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g59450	18411175	NM_115807	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g07490	18397964	NM_111627	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At4g12860	18413883	NM_117355	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g18210	18394584	NM_101681	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g73630	18410405	NM_106021	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g66400	18408501	NM_105311	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	TCH2	NULL	NULL	At5g37770	18421685	NM_123136	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At2g36180	18404063	NM_129176	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At5g17470	18418308	NM_121753	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g03400	18396535	NM_111211	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g03410	18396539	NM_111212	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At2g15680	18397893	NM_127129	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g21550	18395001	NM_102004	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At4g20780	18415564	NM_118196	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At5g44460	18422443	NM_123813	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g12310	18391376	NM_101103	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g62820	18407668	NM_104960	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM4	NULL	NULL	At1g66410	18408504	NM_105312	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM1	NULL	NULL	At5g37780	18421686	NM_123137	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM5	NULL	NULL	At2g27030	18401303	NM_128261	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM2	NULL	NULL	At2g41110	18405604	NM_129676	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM3	NULL	NULL	At3g56800	18410576	NM_115539	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM7	NULL	NULL	At3g43810	18407644	NM_114249	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM6	NULL	NULL	NULL	NULL	NULL	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaBP-22	NULL	NULL	At2g41090	18405595	NM_129674	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g22930	18403581	NM_113193	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM8	NULL	NULL	At4g14640	18414273	NM_117546	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	TCH-3	NULL	NULL	At2g41100	18405601	NM_129675	NULL	EF-hands number:6	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	CaM9	NULL	NULL	At3g51920	18409451	NM_115051	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	Centrin	NULL	NULL	At3g50360	18409078	NM_114896	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At4g37010	18419951	NM_119864	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g18530	18394622	NM_101711	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g25600	18404586	NM_113458	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g32250	18398340	NM_102958	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g03000	18396407	NM_111170	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	PM129	NULL	NULL	At2g41410	18405692	NM_129704	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g10190	18398790	NM_111854	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g03430	18396544	NM_111214	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	APC1	NULL	NULL	At5g17480	18418312	NM_121754	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g76640	18411165	NM_106314	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g76650	18411167	NM_106315	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g01830	18395956	NM_111049	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g50770	18409177	NM_114937	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At5g42380	18422204	NM_123603	NULL	EF-hands number:3	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g29000	18406008	NM_113821	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At5g39670	18421892	NM_123329	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g47480	18408434	NM_114616	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At1g24620	18395526	NM_102304	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At3g24110	18404042	NM_113316	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group IV	NULL	NULL	NULL	At4g26470	18416756	NM_118780	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group V	NULL	NULL	NULL	At2g27480	18401439	NM_128308	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group V	NULL	NULL	NULL	At3g10300	18398828	NM_111865	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group V	NULL	NULL	NULL	At5g04170	18414481	NM_120499	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohB	NULL	NULL	At1g09090	18390979	NM_100780	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g25090	18416482	NM_118641	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohC	NULL	NULL	At5g51060	18423231	NM_124485	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohA	NULL	NULL	At5g07390	18415480	NM_120821	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohD	NULL	NULL	At5g47910	18422850	NM_124165	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohF	NULL	NULL	At1g64060	18407958	NM_105079	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	RbohE	NULL	NULL	At1g19230	18394711	NM_101781	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At3g45810	18408076	NM_114450	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g60010	18424309	NM_125394	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At2g47860	18407468	NM_130353	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At3g44820	18407856	NM_114351	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g05180	18414817	NM_120600	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g13260	18417007	NM_121329	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g13960	18417245	NM_121399	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At3g05310	18397186	NM_111404	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g27540	18421128	NM_122636	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At3g63150	18412633	NM_116180	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At2g20800	18399479	NM_127645	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g05020	18412774	NM_116741	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g28220	18417150	NM_118962	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g08000	18413066	NM_116869	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g03560	18412294	NM_116594	NULL	EF-hands number:2	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At1g02960	18379035	NM_100177	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g59230	18424211	NM_125313	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At4g39560	18420478	NM_120116	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	ABI1	NULL	NULL	At4g26080	18416677	NM_118741	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	GDH2	NULL	NULL	At5g07440	18415497	NM_120826	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At1g76250	18411060	NM_106275	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At5g44620	18422462	NM_123829	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	EF-hand containing proteins:Group VI	NULL	NULL	NULL	At1g01280	18378820	NM_100010	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK10, AtCDPK1"	NULL	NULL	At1g18890	18394666	NM_101746	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK11, AtCDPK2"	NULL	NULL	At1g35670	18399838	NM_103271	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK33	NULL	NULL	At1g50700	18403187	NM_103952	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK19	NULL	NULL	At1g61950	18407389	NM_104875	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK30, AtCDPK1a"	NULL	NULL	At1g74740	18410682	NM_106132	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK29	NULL	NULL	At1g76040	18411005	NM_106253	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK6, CDPK3"	NULL	NULL	At2g17290	18398376	NM_127284	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK16	NULL	NULL	At2g17890	18398551	NM_127343	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK24	NULL	NULL	At2g31500	18402684	NM_128707	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK25	NULL	NULL	At2g35890	18403983	NM_129148	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK20	NULL	NULL	At2g38910	18404894	NM_129449	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK14	NULL	NULL	At2g41860	18405824	NM_129750	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK2, CDPK2"	NULL	NULL	At3g10660	18398950	NM_111902	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK9	NULL	NULL	At3g20410	18402607	NM_112932	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK13	NULL	NULL	At3g51850	18409435	NM_115044	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK32	NULL	NULL	At3g57530	18410742	NM_115613	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK27	NULL	NULL	At4g04700	18412650	NM_116708	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK22	NULL	NULL	At4g04710	18412662	NM_116709	NULL	EF-hands number:5	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK21	NULL	NULL	At4g04720	18412664	NM_116710	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK23	NULL	NULL	At4g04740	18412672	NM_116712	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK4	NULL	NULL	At4g09570	18413240	NM_117025	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK15	NULL	NULL	At4g21940	18415802	NM_118315	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK3, CDPK6"	NULL	NULL	At4g23650	18416188	NM_118496	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK5	NULL	NULL	At4g35310	18418656	NM_119697	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK18	NULL	NULL	At4g36070	18419776	NM_119774	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK26	NULL	NULL	At4g38230	18420199	NM_119985	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK31, g5732059"	NULL	NULL	NULL	NULL	NULL	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK1, AK1"	NULL	NULL	At5g04870	18414719	NM_120569	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK17	NULL	NULL	At5g12180	18416796	NM_121256	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK7	NULL	NULL	At5g12480	18416871	NM_121286	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK34	NULL	NULL	At5g19360	18419895	NM_121941	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK8, CDPK19"	NULL	NULL	At5g19450	18419918	NM_121950	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	"CPK12, CDPK9"	NULL	NULL	At5g23580	18420694	NM_122264	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CDPKs	CPK28	NULL	NULL	At5g66210	18425046	NM_126019	NULL	EF-hands number:4	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CRKs	CRK8	NULL	NULL	At1g49580	18402703	NM_103846	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CRKs	CRK3	NULL	NULL	At2g46700	18407143	NM_130235	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	CRKs	CRK5	NULL	NULL	At3g50530	18409120	NM_114913	NULL	EF-hands number:1	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	Clo4	NULL	NULL	At1g70670	18409648	NM_105735	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	NULL	NULL	NULL	At1g70680	18409650	NM_105736	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	Clo5	NULL	NULL	At1g23240	18395218	NM_102173	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	Clo3	NULL	NULL	At2g33380	18403259	NM_128898	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	Clo1	NULL	NULL	At4g26740	18416814	NM_118808	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Caleosins	Clo2	NULL	NULL	At5g55240	18423725	NM_124906	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	GF14	NULL	NULL	At1g78300	18411900	NM_106479	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At1g35160	18399523	NM_103213	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At4g09000	18413180	NM_116969	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At3g02520	18396216	NM_111119	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At5g38480	18421761	NM_123209	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At5g16050	18417862	NM_121610	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At5g16040	18417861	NM_121609	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	14-3-3s	NULL	NULL	NULL	At5g65430	18424949	NM_125941	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	SUBs (Short Under Blue Light)	SUB1	NULL	NULL	At4g08810	18413159	NM_116951	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	SUBs	SUL2	NULL	NULL	At2g04280	18395697	NM_126461	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	SUBs	SUL1	NULL	NULL	At4g12700	18413851	NM_117339	NULL	NULL	"EF-hand motifs were present in Group I - GroupVI, CPKs and CRKs. Caleosins, 14-3-3s and SUBs were not identified as containing EF-hand motifs using InterProScan but they are known to bind Ca2+. Please refer to the above article for more details."	912159	NULL	1677606	12372144	http://genomebiology.com/2002/3/10/research/0056	NULL
NULL	Arabidopsis COBRA subfamily1	COB:COBRA	NULL	MSL3.4	At5g60920	14193657	AAK56072	phytochelatin synthetase - like protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL1:COBRA-LIKE1	NULL	F14P3.14	At3g02210	6041808	AAF02128	unknown protein 	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL2:COBRA-LIKE2	NULL	K17E7.12	At3g29810	13477083	BAB02996	phytochelatin synthetase-like protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL3:COBRA-LIKE3	NULL	F21N10.4	NULL	10092257	AAG12670	NULL	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL4:COBRA-LIKE4	NULL	F14F8.10	At5g15630	9755608	CAC01762	putative phytochelatin synthetase	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL5:COBRA-LIKE5	NULL	MSL3.7	At5g60950	10177318	BAB10644	putative phytochelatin synthetase - like	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily1	COBL6:COBRA-LIKE6	NULL	F21M12.17	At1g09790	2160169	AAB60732	putative phytochelatin synthetase 	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily2	COBL7:COBRA-LIKE7	NULL	dl4100c	At4g16120	2326365	CAA74765	expressed protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily2	COBL8:COBRA-LIKE8	NULL	MUH15.2	At3g16860	9229855	BAB00585	unknown protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily2	COBL9:COBRA-LIKE9	NULL	K21P3.15	At5g49270	10177156	BAB10345	putative protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily2	COBL10:COBRA-LIKE10	NULL	K10D20.12	At3g20580	11994145	BAB01166	hypothetical protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Arabidopsis COBRA subfamily2	COBL11:COBRA-LIKE11	NULL	T24A18.6	At4g27110	4490707	CAB38841	putative protein	NULL	phylogenetic analysis	4729	NULL	1677595	12376623	NULL	NULL
NULL	Type I MADS box	NULL	NULL	NULL	At1g18750	6730710	AAF27105	"homeodomain transcription factor, putative"""	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL30	NULL	NULL	At2g03060	20197096	AAC32924	homeotic protein AGL30 	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL23	NULL	T8F5.14	At1g65360	3335343	AAC27145	"MADS-box protein, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL28	NULL	F22L4.7	At1g01530	2505875	CAA73304	"MADS-box transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL29	NULL	F13P17.1	At2g34440	3128222	AAC26702	MADS-box protein (AGL29)	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL33	NULL	T1D16.4	At2g26320	NULL	NULL	MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL39	NULL	T21B4.40	At5g27130	NULL	NULL	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL40	NULL	AP22.88	At4g36590	7270607	CAB80325	putative MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL41	NULL	F12C20.8	At2g26880	3426047	AAC32246	putative MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	AGL43	NULL	K19M22.9	At5g58890	9759222	BAB09634	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	MDF20.13	AT5g55690	9758603	BAB09236	unknown protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	MUF9.24	At5g60440	9757746	BAB08227	putative MADS box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	K15N18.16	At5g48670	10177357	BAB10700	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	K6M13.3	At5g49490	10177615	BAB10762	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T8F5.11	At1g65330	3335342	AAC27144	"MADS-box transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T8F5.8	At1g65300	3335339	AAC27141	"MADS-box transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F12K8.7	At1g22590	NULL	NULL	expressed protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F27C12.24	At2g24840	4559367	AAD23028	putative MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T8O18.14	At2g28700	4580382	AAD24361	putative MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F15F15.30	At5g27960	NULL	NULL	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F28K19.16	At1g77950	6573764	AAF17684	"MADS box transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F28K19.20	At1g77980	NULL	NULL	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F3M18.10	At1g28460	6560766	AAF16766	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F3M18.11	At1g28450	6560765	AAF16765	"MADS-box protein, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F10A16.16	At3g05860	6714399	AAF26088	putative DNA-binding protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T2E6.17	At1g47760	9802597	AAF99799	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T6K12.28	At3g04100	6721175	AAF26803	putative SRF-type transcription factor	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T7M7.9	At2g40210	6598940	AAF18735	putative MADS-box protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T7P1.3	At1g60880	12323329	AAG51637	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T7P1.6	At1g60920	12323335	AAG51643	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T13M22.2	At1g17310	8778975	AAF79890	"transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T8E24.5	At3g66656	12321914	AAG50993	SRF-type transcription factor	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F21E10.14	At5g26575	3047087	AAC13600	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F21E10.9	At5g26625	3047076	AAC13589	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F21E10.10	At5g26645	NULL	NULL	putative protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	FCAALL.249	At4g14530	NULL	NULL	hypothetical protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T32M21.240	At5g04640	7406468	CAB85570	MADS-box protein - like	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F2E2.20	At1g22130	NULL	NULL	"MADS-box protein (ZAP1), putative "	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F21D18.1	At1g48150	12597831	AAG60141	"MADS-box protein, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	MBB18.17	At5g38620	10176830	BAB10152	MADS-box protein-like	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	K7J8.9	At5g49420	NULL	NULL	MADS-box protein-like	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	T10D10.18	At1g72350	12325263	AAG52570	putative SRF-type transcription factor	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F27M3.16	At1g31640	12597829	AAG60139	"MADS box transcription factor, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F27M3.17	At1g31630	12597831	AAG60141	"MADS-box protein, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F27M3.17	At1g31630	NULL	NULL	"MADS-box protein, putative"	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Type I MADS box	NULL	NULL	F28K20.7	At1g31140	4512626	AAD21695	unknown protein	NULL	"Eugene (Schiex et al., 2001) and GeneMark.hmm (Lukashin and Borodovsky, 1998) was used for gene prediction on genomic sequences. Similarities to family-specific signatures of experimentally characterised genes and similarities to ESTs were used to adjust incorrect gene predictions. Remote-homolog detection was performed using HMMer. Family-wise annotation. MADS-box genes are regarded as type I when they don't possess the K-box (using InterPro and MultiCoil), characteristic for plant type II MADS-box genes."	1013001	NULL	1678563	12698294	http://www.mpiz-koeln.mpg.de/mads/	The MADS box gene home page
NULL	Arabidopsis ARIADNE gene family: subfamily A	ARI1:ARIADNE1	NULL	F10M10.140	AT4G34370	29125017	AJ510204	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily A	ARI2:ARIADNE2	NULL	F7H1.11	AT2G16090	29125019	AJ510205	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily A	ARI3:ARIADNE3	NULL	MGF10.11	AT3G27710	29125021	AJ510206	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily A	ARI4:ARIADNE4	NULL	MGF10.12	AT3G27720	29125023	AJ510207	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI5:ARIADNE5	NULL	T20M3.16	AT1G05890	29125024	AJ510208	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI6:ARIADNE6	NULL	F24D7.5	AT1G63760	29125026	AJ510209	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI7:ARIADNE7	NULL	T9H9.3	AT2G31510	29125027	AJ510210	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI8:ARIADNE8	NULL	T8F5.21	AT1G65430	29125029	AJ510211	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI9:ARIADNE9	NULL	F20M17.19	AT2G31770	29125031	AJ510212	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI10:ARIADNE10	NULL	F20M17.20	AT2G31760	29125033	AJ510213	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI11:ARIADNE11	NULL	F20M17.18	AT2G31780	29125035	AJ510214	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily B	ARI12:ARIADNE12	NULL	T20M3.15	AT1G05880	29125037	AJ510215	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily C	ARI13:ARIADNE13	NULL	MBK5.23	AT5G63750	29125039	AJ510216	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily C	ARI14:ARIADNE14	NULL	MBK5.21	AT5G63730	29125041	AJ510217	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily C	ARI15:ARIADNE15	NULL	MBK5.24	AT5G63760	29125043	AJ510218	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Arabidopsis ARIADNE gene family: subfamily C	ARI16:ARIADNE16	NULL	T2K12.80	AT5G08730	29125045	AJ510219	NULL	NULL	Confirmation of exon-intron borders. Organ-specific expression analyses with real-time PCR	4770	NULL	501683003	12529512	http://www.boku.ac.at/zag/AG_hauser.htm	ZAG_Plant Genetics Group
NULL	Class III peroxidase	PER1	NULL	YUP8H12.15	AT1G05240	2388573	AAB71454	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER2	NULL	YUP8H12.14	AT1G05250	2388572	AAB71453	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER3	NULL	YUP8H12.13	AT1G05260	2388571	AAB71452	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER4	NULL	T5E21.4	AT1G14540	7527729	AAF63178	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER5	NULL	T5E21.5	AT1G14550	7262698	AAF43956	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER6	NULL	F3I6.3	AT1G24110	2829863	AAC00571	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER7	NULL	T17H7.19	AT1G30870	4926834	AAD32944	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER8	NULL	F12K21.18	AT1G34510	8778251	AAF79260	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER9	NULL	F27F5.6	AT1G44970	7767656	AAF69153	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER10	NULL	F14J22.19	AT1G49570	10120418	AAG13043	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER11	NULL	T6L1.4	AT1G68850	12323216	AAG51588	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER12	NULL	F26A9.5	AT1G71695	12323738	AAG51834	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER13	NULL	F22K20.17	AT1G77100	2829914	AAC00622	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER14	NULL	F8D23.8	AT2G18140	4874289	AAD31352	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER15	NULL	 F8D23.7	AT2G18150	4874288	AAD31351	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER16	NULL	F19F24.18	AT2G18980	3004558	AAC09031	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER17	NULL	F14M13.18	AT2G22420	4544449	AAD22357	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER18	NULL	F27C12.28	AT2G24800	4559371	AAD23032	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER19	NULL	T14G11.18	AT2G34060	2342726	AAB67624	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER20	NULL	T32F12.24	AT2G35380	3608150	AAC36183	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER21	NULL	T2N18.11	AT2G37130	4371288	AAD18146	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER22	NULL	T19C21.13	AT2G38380	3395434	AAC28766	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER23	NULL	T19C21.12	AT2G38390	3395433	AAC28765	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER24	NULL	T7F6.21	AT2G39040	3928088	AAC79614	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER25	NULL	T26J13.7	AT2G41480	22655091	AAM98136	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER26	NULL	T1O24.22	AT2G43480	2288998	AAB64327	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER27	NULL	T4P13.12	AT3G01190	6714469	AAF26155	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER28	NULL	T12J13.5	AT3G03670	6091756	AAF03466	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER29	NULL	K14A17.14	AT3G17070	21553641	AAM62734	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER30	NULL	MSD21.8	AT3G21770	11994644	BAB02839	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER31	NULL	T19D11.1	AT3G28200	11994582	BAB02637	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER32	NULL	T15D2.7	AT3G32980	9884625	BAB02631	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER33	NULL	T2J13.50	AT3G49110	6522555	CAB61999	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER34	NULL	T2J13.40	AT3G49120	6522554	CAB61998	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER35	NULL	F3A4.40	AT3G49960	6522917	CAB62104	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER36	NULL	F24M12.30	AT3G50990	6562251	CAB62621	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER37	NULL	T32A17.80	AT4G08770	7321066	CAB82113	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER38	NULL	T32A17.90	AT4G08780	7321067	CAB82114	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER39	NULL	F8L21.80	AT4G11290	5596475	CAB51413	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER40	NULL	DL4175W	AT4G16270	2244985	CAB10406	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER41	NULL	DL4880W	AT4G17690	2245128	CAB10549	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER42	NULL	T8O5.170	AT4G21960	1402904	CAA66957	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER43	NULL	F20B18.90	AT4G25980	4538927	CAB39663	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER44	NULL	F20B18.120	AT4G26010	15724252	AAL06519	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER45	NULL	 F9N11.20	AT4G30170	5730127	CAB52461	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER46	NULL	F28M20.50	AT4G31760	3281852	CAA19747	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER47	NULL	F17M5.180	AT4G33420	4490309	CAB38800	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER48	NULL	F17I5.60	AT4G33870	3297811	CAA19869	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER49	NULL	C7A10.930	AT4G36430	4006918	CAB16848	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER50	NULL	F19F18.10	AT4G37520	4468977	CAB38291	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER51	NULL	F19F18.20	AT4G37530	4468978	CAB38292	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER52	NULL	K18I23.14	AT5G05340	10176746	BAB09977	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER53	NULL	MPH15.8	AT5G06720	9759300	BAB09806	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER54	NULL	MPH15.9	AT5G06730	9759301	BAB09807	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER55	NULL	MUA22.13	AT5G14130	9757794	BAB08292	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER56	NULL	F8M21_70	AT5G15180	7671487	CAB89328	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER57	NULL	MVA3.18	AT5G17820	9759059	BAB09581	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER58	NULL	F28I16.30	AT5G19880	26451205	BAC42706	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER59	NULL	F28I16.40	AT5G19890	21703112	AAM74498	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER60	NULL	MWD9.21	AT5G22410	9757822	BAB08340	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER61	NULL	MZF18.4	AT5G24070	9758231	BAB08730	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER62	NULL	MIJ24.7	AT5G39580	9758333	BAB08889	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER63	NULL	MSN9.5	AT5G40150	10177502	BAB10896	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER64	NULL	MJC20.29	AT5G42180	9757963	BAB08451	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER65	NULL	MQD22.14	AT5G47000	20260464	AAM13130	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER66	NULL	MJM18.4	AT5G51890	8809683	BAA97224	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER67	NULL	MCK7.26	AT5G58390	8777340	BAA96930	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER68	NULL	MCK7.27	AT5G58400	8777341	BAA96931	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER69	NULL	MHJ24.8	AT5G64100	10176958	BAB10278	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER70	NULL	MHJ24.9	AT5G64110	10176959	BAB10279	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER71	NULL	MHJ24.10	AT5G64120	10176960	BAB10280	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER72	NULL	K1F13.4	AT5G66390	10177520	BAB10915	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	Class III peroxidase	PER73	NULL	K8K14.13	AT5G67400	9758439	BAB09025	NULL	NULL	Nomenclature of the class III peroxidase family members based on their location on the chromosomes; analyse of the gene structure in correlation with the phylogenetic relationships between the members; characterization of expression patterns using cDNA macroarray procedure	1012653	NULL	501682083	12034502	http://www.unige.ch/LABPV/perox.html	Laboratory of Plant biochemistry and Physiology: Plant Peroxydases
NULL	MADS like gene family	NULL	NULL	NULL	AT5G27090	15240442	NP_198061	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G27070	15240434	NP_198059	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G27580	15240987	NP_198110	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	AGL26	NULL	NULL	AT5G26950	15240412	NP_198047	MADS-box protein	AGL26	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT4G11250	15237118	NP_192864	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G65330	15238426	NP_201336	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G40220	15242610	NP_198838	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G39750	15242468	NP_198791	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G38740	15240993	NP_198690	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G40120	15242575	NP_198828	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G39810	15242477	NP_198797	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G41200	15237581	NP_198936	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT3G18650	15230155	NP_188495	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT5G27050	15240432	NP_198057	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT1G60040	15218977	NP_176212	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	MADS like gene family	NULL	NULL	NULL	AT1G59810	15218926	NP_176190	MADS-box protein	NULL	MADS-like genes are genes that possess either half of the MADS-box or a very diverged form of the MADS-box.	1013001	NULL	NULL	NULL	http://www.mpiz-koeln.mpg.de/mads	The MADS box gene home page
NULL	Phospholipase D	PLDalpha1	NULL	NULL	AT3G15730	11994345	BAB02304	NULL	The classical plant PLD that reguires high millimolar calcium for activity in vitro	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDalpha2	NULL	NULL	AT1G52570	5903048	AAD55607	NULL	Sequence most closely related to PLDalpha one; biochemical properties unknown	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDalpha3	NULL	NULL	AT5G25370	15239403	NP_197919	NULL	Its gene structure similar to PLDalphas; biochemical properties are unknown.	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDalpha4	NULL	NULL	AT1G55180	12323171	AAG51567	NULL	A unique PLD that may not have a calcium-binding C2-domain; biochemical properties are unknown.	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDbeta1	NULL	NULL	AT2G42010	20198318	AAB63542	NULL	PIP2-requiring PLD that is activated by micromolar calcium	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDbeta2	NULL	NULL	AT4G00240	6049888	AAF02803	NULL	Sequence more closely related to PLDbeta1 than to the other PLDs; biochemical properties are unknown.	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDgamma1	NULL	NULL	AT4G11850	7267885	CAB78228	NULL	PIP2-requiring PLD that is activated by micromolar calcium and prefers PE to PC	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDgamma2	NULL	NULL	AT4G11830	7267883	CAB78226	NULL	PIP2-requiring PLD that is activated by micromolar calcium and prefers PE to PC	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDgamma3	NULL	NULL	AT4G11840	7267884	CAB78227	NULL	structurally highly identical to PLDgamma1 and 2	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDdelta	NULL	NULL	AT4G35790	7270531	CAB81488	NULL	Oleate-stimulated PLD that is associated with the plasma membrane and microtubules	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDzeta1	NULL	NULL	AT3G16785	11994476	BAA95772	NULL	"Calcium-independent, PC-selective PLD with PH/PX domains similar to mammalian PLDs. "	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Phospholipase D	PLDzeta2	NULL	NULL	AT3G05630	6714447	AAF26134	NULL	PLD with PH/PX domains similar to mammalian PLDs. 	"Domain strcuture (duplicated HKD motifs), biochemical properties, and sequence similarity"	4761	NULL	1547385	11891260	http://www.ksu.edu/lipid/lipidomics/	Kansas Lipidomics Research Center
NULL	Plant U-box protein (PUB) Class I	AtUFD2	NULL	NULL	AT5g15400 	18417653	NP_568313	ubiquitin-fusion degradation protein-like	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB2	NULL	NULL	AT5g67340	30698296	NP_201535	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB3	NULL	NULL	AT3g54790	30694120	NP_191039	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB4	NULL	NULL	AT2g23140	2642448	AAB87116  	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB5	NULL	NULL	AT4g36550	7270603	CAB80321	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB6	NULL	NULL	AT1g24330	15221729	NP_173843	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB7	NULL	NULL	AT1g67530	15220457	NP_176920	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB8	AtCMPG3	NULL	AT4g21350	7268931	CAB79134 	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB9	NULL	NULL	AT3g07360	19715649	AAL91644	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB10	NULL	NULL	AT1g71020	19715632	AAL91637	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB11	AtCMPG6	NULL	AT1g23030	27311825	AAO00878	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB12	NULL	NULL	AT2g28830	3927830	AAC79587	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB13	NULL	NULL	AT3g46510	22136270	AAM91213	arm repeat containing protein homolog	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB14	NULL	NULL	AT3g54850	20465441	AAM20180	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB15	NULL	NULL	AT5g42340	15238931	NP_199049	arm repeat containing protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB16	NULL	NULL	AT5g01830	15241068	NP_195803	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB17	NULL	NULL	AT1g29340	17381178	AAL36401	arm repeat containing protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB18	NULL	NULL	AT1g10560	18700157	AAL77690	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB19	NULL	NULL	AT1g60190	15219012	NP_176225	unclassified protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB20	AtCMPG1	NULL	AT1g66160	17104779	AAL34278	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB21	AtCMPG5	NULL	AT5g37490	15240259	NP_198565	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB22	NULL	NULL	AT3g52450	15231222	NP_190813	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB23	NULL	NULL	AT2g35930	4510376	AAD21464	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB24	NULL	NULL	AT3g11840	18399375	NP_566402	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB25	NULL	NULL	AT3g19380	18402223	NP_566632	peptidylprolyl isomerase (cyclophilin)-like	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB26	NULL	NULL	AT1g49780	15222819	NP_175400	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB27	AtCMPG2	NULL	AT5g64660	15237755	NP_201271	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB28	NULL	NULL	AT5g09800	15242515	NP_196542	putative protein 	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB29	NULL	NULL	AT3g18710	28950999	AAO63423	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB30	NULL	NULL	AT3g49810	18408953	NP_566927	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class III	AtPUB31	AtCMPG4	NULL	AT5g65920	20259822	AAM13258	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB32	NULL	NULL	AT3g49060	15215682	AAK91387	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB33	NULL	NULL	AT2g45910	3386604	AAC28534	putative protein kinase	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB34	NULL	NULL	AT2g19410	20197009	AAM14871	putative protein kinase	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB35	NULL	NULL	AT4g25160	7269366	CAB79425	putative Ser/Thr protein kinase	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB36	NULL	NULL	AT3g61390	28951015	AAO63431	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB37	NULL	NULL	AT2g45920	3386603	AAC28533	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB38	NULL	NULL	AT5g65200	15238366	NP_201323	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB39	NULL	NULL	AT3g47820	20259439	AAM14040	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB40	NULL	NULL	AT5g40140	15242579	NP_198830	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB41	NULL	NULL	AT5g62560	22135980	AAM91572	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB42	NULL	NULL	AT1g68940	22330515	NP_177060	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB43	NULL	NULL	AT1g76390	15223037	NP_177765	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB44	NULL	NULL	AT1g20780	20465797	AAM20387	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB45	NULL	NULL	AT1g27910	20453195	AAM19837	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB46	NULL	NULL	AT5g18320	30686764	NP_197333	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB47 	NULL	NULL	AT5g18330	15238789	NP_197334	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB48	NULL	NULL	AT5g18340	15238790	NP_197335	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class II	AtPUB49	NULL	NULL	AT5g67530	24111273	AAN46760	peptidylprolyl isomerase (cyclophilin)-like	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB50	NULL	NULL	AT5g65500	15238488	NP_201353	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB51	NULL	NULL	AT5g61560	30697549	NP_200964	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB52	NULL	NULL	AT5g61550	15240280	NP_200963	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class IV	AtPUB53	NULL	NULL	AT5g51270	15241414	NP_199940	putative protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB54 	NULL	NULL	AT1g01680	30678171	NP_171674	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB55	NULL	NULL	AT1g01660	15223450	NP_171672	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB56 	NULL	NULL	AT1g01670	30678166	NP_171673	unknown protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB57	NULL	NULL	AT1g56030	15222825	NP_175999	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class V	AtPUB58	NULL	NULL	AT1g56040	15222827	NP_176000	hypothetical  protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class VI	AtPUB59	NULL	NULL	AT1g04510	23296618	AAN13133	putative pre-mRNA splicing factor PRP19	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class VI	AtPUB60	NULL	NULL	AT2g33340	2459417	AAB80652	putative PRP19-like spliceosomal protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	Plant U-box protein (PUB) Class VII	AtCHIP	NULL	NULL	AT3g07370	18397925	NP_566305	CHIP-like protein	NULL	"Proteins containing a U-box domain (SMART ID: SM00504, INTERPRO ID: IPR003613). By structural characteristics and phylogenetic comparison, the 61 representatives are assigned to 7 sub-classes."	5951	NULL	501681503	12084942	http://www.sainsbury-laboratory.ac.uk/ken-shirasu/INDEX.htm	NULL
NULL	AtMRS2	AtMRS2-1	NULL	NULL	AT1G16010	25360796	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-2	NULL	NULL	AT5G64560	25360812	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-3	NULL	NULL	AT3G19640	25360819	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-4	NULL	NULL	AT3G58970	25360849	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-5	NULL	NULL	AT2G03620	25360881	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-6	NULL	NULL	AT4G28580	25360917	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-7	NULL	NULL	AT5G09690	25360940	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-8	NULL	NULL	AT5G09720	25360963	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-9	NULL	NULL	AT5G09710	3985955	AB020752	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-10	NULL	NULL	AT1G80900	25360982	NULL	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
NULL	AtMRS2	AtMRS2-11	NULL	NULL	AT5G22830	12007446	AF322255	NULL	NULL	"Initial member characterized by complementation of yeast mrs2 mutant and showing that mitochondrial magnesium homeostasis is reconstituted upon complementation. Family members #1, #3, #4, #5, #6, #10 and #11 are predicted to have two carboxy-terminal transmembrane domains adjacent to a conserved GMN motif characteristic of bacterial corA type magnesium transporters. These domains are lacking in family members #2, #7,#8,#9 and #2 does not complement the yeast mrs2 mutant. The extent of the gene family is clearly defined with a blast search with one of its members which identifies the other homologues with expectancy values below 1e-05."	5421	NULL	1546187	11752386	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD1	AtHB25	MNA5_14	At5g65410	BT002385	AAO00745	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	11289511	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD2	AtHB22	F22K18_140	At4g24660	NULL	AAM78073	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	11289511	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD3	AtHB21	T8K22_16	At2g02540	NULL	AAV63863	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	11289511	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD4	AtHB31	F14L17_21	At1g14440	NULL	AAL66963	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	11289511	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD5	AtHB33	F22H5_4	At1g75240	NM_106180	NP_565106	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501718353	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD6	AtHB24	T30D6_14	At2g18350	NM_127392	NP_565436	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD7	AtHB28	T8K22_16	At3g50890	NM_114949	NP_190658	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD8	AtHB30	F8M21_100	At5g15210	NM_121525	NP_197025	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD9	AtHB34	MYI13_1	At3g28920	NM_113813	NP_189534	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501718353	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD10	AtHB23	MKM21_8	At5g39760	NM_123338	NP_568570	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD11	AtHB29	F24J1_29	At1g69600	NM_105628	NP_177118	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD12	AtHB26	MUF9_11	At5g60480	NM_125441	NP_200856	NULL	Pseudogene	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD13	AtHB27	MJB21_16	At5g42780	NM_123643	NP_199092	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501680378	16428600	NULL	NULL
zinc finger-homeobox gene family	ZHD subfamily	AtZHD14	AtHB32	F10B6 (1924 - 2733 bp) 	At1g14687	NM_101337	NP_563956	NULL	NULL	Defined by the presence of an N-terminal putative zinc finger and a C-terminal noncanonical homeodomain	1501421667	NULL	501718353	16428600	NULL	NULL
zinc finger-homeobox gene family	MIF subfamily	AtMIF1	NULL	F1M20_34	At1g74660	NULL	AAM62558	NULL	NULL	Defined by the presence of the putative zinc finger and loss of the homeodomain	1501421667	NULL	501718397	16412086	NULL	NULL
zinc finger-homeobox gene family	MIF subfamily	AtMIF2	NULL	MLD15 (70887 - 71710bp)	At3g28917	NULL	AAM63930	NULL	NULL	Defined by the presence of the putative zinc finger and loss of the homeodomain	1501421667	NULL	501718397	16412086	NULL	NULL
zinc finger-homeobox gene family	MIF subfamily	AtMIF3	NULL	F6A14 (33498 - 33764bp) 	At1g18835	DQ217608	ABB20816	NULL	NULL	Defined by the presence of the putative zinc finger and loss of the homeodomain	1501421667	NULL	501718397	16412086	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX1	NULL	F12F1	At1g12040	NULL	AAK07681.1	cell wall protein	extracellular localization experimentally shown	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540, 501680461	12644681 | 11331608	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX2	NULL	F24O1	At1g62440	AC005698	AAD43602	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540, 501707762	12644681 | 11331608	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX3	NULL	T9E8	At4g13340	AL049608	CAB40763	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX4	NULL	MXP5	At3g24480	AP002048	BAB01947.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX5	NULL	F28A21	At4g18670	NM_117983	NP_193602.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX6	NULL	MWI23	At3g22800	NM_113179	NP_188919.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	Leucine-rich repeat extensin	AtLRX7	NULL	T14C9	At5g25550	NM_122466	NP_197937.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain)	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	pollen-expressed leucine-rich repeat extensin	AtPEX1	NULL	K13E13	At3g19020	NM_112788	NP_188532.2	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain) and specifically expressed in pollen	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	pollen-expressed leucine-rich repeat extensin	AtPEX2	NULL	F13F21	At1g49490	NM_103837	NP_175372.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain) and specifically expressed in pollen	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	pollen-expressed leucine-rich repeat extensin	AtPEX3	NULL	F19G14	At2g15880	NM_127148	NP_179188.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain) and specifically expressed in pollen	912379	NULL	501683540	12644681	NULL	NULL
Leucine-rich repeat extensin	pollen-expressed leucine-rich repeat extensin	AtPEX4	NULL	F17I5	At4g33970	NM_119558	NP_195123.1	cell wall protein	NULL	defined by signal peptide for protein export, leucine-rich repeat domain, and extensin (hydroxyproline-rich glycoprotein domain) and specifically expressed in pollen	912379	NULL	501683540	12644681	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70A1	NULL	NULL	At5g03540	NULL	NP_195974.2	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70A2	NULL	NULL	At5g52340	NULL	NP_200047.2	putative Exo70 subunit of the exocyst complex	TAIR6.0 prediction (NP_200047.2) incorrect	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70A3	NULL	NULL	At5g52350	NULL	NP_200048.1	putative Exo70 subunit of the exocyst complex	TAIR6.0 prediction (NP_200048.1) incorrect, probable pseudogene	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70B1	NULL	NULL	At5g58430	NULL	NP_200651.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70B2	NULL	NULL	At1g07000	NULL	NP_172181.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70C1	NULL	NULL	At5g13150	NULL	NP_196819.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70C2	NULL	NULL	At5g13990	NULL	NP_196903.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70D1	NULL	NULL	At1g72470	NULL	NP_177391.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70D2	NULL	NULL	At1g54090	NULL	NP_175811.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70D3	NULL	NULL	At3g14090	NULL	NP_566477.2	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70E1	NULL	NULL	At3g29400	NULL	NP_189586.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70E2	NULL	NULL	At5g61010	NULL	NP_200909.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70F1	NULL	NULL	At5g50380	NULL	NP_199849.2	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70G1	NULL	NULL	At4g31540	NULL	NP_194882.2	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70G2	NULL	NULL	At1g51640	NULL	NP_175575.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H1	NULL	NULL	At3g55150	NULL	NP_191075.2	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H2	NULL	NULL	At2g39380	NULL	NP_181470.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H3	NULL	NULL	At3g09530	NULL	NP_187564.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H4	NULL	NULL	At3g09520	NULL	NP_187563.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H5	NULL	NULL	At2g28640	NULL	NP_180432.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H6	NULL	NULL	At1g07725	NULL	AAF75081.1	putative Exo70 subunit of the exocyst complex	TAIR6.0 prediction (NP_683286.1) incorrect	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H7	NULL	NULL	At5g59730	NULL	NP_200781.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
NULL	EXO70 exocyst subunit family	AtEXO70H8	NULL	NULL	At2g28650	NULL	NP_180433.1	putative Exo70 subunit of the exocyst complex	NULL	Members of the family identified by BLAST searches, all share the Interpro IPR000003 domain. For details see the paper.	639	NULL	NULL	NULL	NULL	NULL
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 1	AtBPC1	NULL	F23I14	AT2G01930	NULL	AAM15473.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 2	AtBPC2	NULL	F10B6	AT2G35550	NULL	AAR25822.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 3	AtBPC3	NULL	T23K23	AT1G68120	NULL	NP_176979.2	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 4	AtBPC4	NULL	F7O24	AT2G21240	NULL	AAM15408.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 5	AtBPC5	NULL	T32F12	AT4G38910	NULL	NP_195602.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 6	AtBPC6	NULL	MDH9	AT5G42520	NULL	AAF18661.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins
GAGA-motif binding transcription factor familiy	Basic Pentacysteine Protein 7	AtBPC7	NULL	T32F12	AT2G35550	NULL	AAC36166.1	The BBR/BPC-transcription factor family appears to play a role in the regulation of basal transcription	NULL	presence of the GAGA-factor specific IPR010409/DUF1004 DNA-binding domain	10631	NULL	501711763	14731261	http://www.uni-tuebingen.de/plantphys/harter/wanke/Projects_GAGA-factors.html	BBR/BPC-Proteins