GOID	TERM	ONTOLOGY	pValue	Genes
GO:0006412	translation	BP	1.40020814668679e-110	emb2386//RPS15//AT1G07070//AT1G07210//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G15250//HLL//AT1G18540//PFL//RPL27A//AT1G23410//AT1G25260//AT1G26740//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//AT1G57660//AT1G57860//XW6//ARP2//AT1G64600//AT1G64880//AT1G67430//ATELF5A-3//AT1G70600//AP40//AT1G74050//AT1G74060//AT1G77750//AT1G80750//AT2G01250//AT2G05220//AT2G09990//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20450//AT2G21580//AT2G25210//PGY1//AT2G27710//AT2G31610//AT2G32220//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATRPL23A//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//AT2G41840//AT2G42710//RPL16A//AT2G44120//AT2G44860//AT2G45710//AT2G47610//AT3G01790//AT3G02080//AT3G02560//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//AT3G07110//AT3G09200//AT3G09630//AT3G09680//AT3G10610//AT3G11250//AT3G11510//AML1//AT3G13580//AT3G13882//AT3G14600//AT3G16080//AT3G16780//RFC3//RPL3P//RLK902//AT3G18760//AT3G22230//RPS10//AT3G23390//AT3G24830//ATL5//AT3G28900//AT3G44590//AT3G45030//AT3G47370//EMB1080//ATBBC1//AT3G49080//AT3G49910//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//AT3G55170//RPL23A2//AT3G55750//AT3G56340//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//AT4G02230//AT4G02930//AT4G10450//AT4G11120//AT4G13170//AT4G14320//AT4G15000//AT4G16720//AT4G17390//AT4G18100//RPL16B//AT4G23620//AT4G25740//AT4G25890//AT4G26230//AT4G28360//AT4G29410//rps15ae//AT4G30800//NFD1//RPS6//AT4G34555//AT4G34670//AT4G36130//AT4G37660//AT5G02610//AT5G02870//AT5G04800//AT5G06360//AT5G07090//AT5G09500//AT5G09510//EMB3010//AT5G11750//AT5G15200//AT5G15520//PSRP3/2//AT5G16130//AT5G18380//AT5G22440//AT5G23535//RPS11-BETA//AT5G23900//AT5G27770//AT5G27850//AT5G28060//AT5G35530//OLI7//AT5G39850//AT5G40040//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//AT5G48760//AT5G52650//AT5G53070//ANQ1//AT5G56710//AT5G56940//AT5G57290//AT5G58420//AT5G59240//AT5G59850//AT5G60670//AT5G61170//AT5G62300//RPS28//AT5G64650//AT5G64670//AT5G66860//AT5G67510
GO:0001510	RNA methylation	BP	1.43486657631756e-103	emb2386//AtTRM82//AT1G18540//AT1G18850//AT1G23280//AT1G25260//AT1G26880//RPL10B//AT1G27400//AT1G34030//ARP1//RACK1B//ATNUC-L1//AT1G52930//G-H2AX//NOP56//TIM13//AT1G63660//IMP4//AT1G67430//AP40//AT1G80750//AT2G17360//AT2G20450//EDA27//AT2G21580//AT2G27710//HDA13//TIM10//AT2G32220//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//ATRPL23A//AT2G40010//AT2G41840//RPL16A//AT2G44120//AT2G44860//AT2G45710//AT2G47610//AT3G03920//AT3G03960//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//ATPRMT3//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//TOM40//AT3G22660//AT3G23620//ATL5//ATPHB4//CARA//AT3G28900//AT3G44590//ATHD2A//AT3G47370//ATBBC1//AT3G49910//ATEBP1//AT3G52580//RPL24//AT3G53430//ROC2//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//AT4G10450//AT4G12600//AT4G15000//AT4G15640//AT4G16720//AT4G17390//ATFKBP53//ATFIB2//AT4G25730//AT4G29410//RUXF//AT4G30800//NFD1//RPS6//AT4G34670//AT5G02050//AT5G02870//AT5G08180//AT5G09510//AT5G13830//AT5G14600//AT5G15200//AT5G15520//AT5G16130//TOZ//AT5G20160//AT5G22440//ATHD2//AT5G27770//AT5G35530//OLI7//ATPHB3//AT5G48760//TIM8//ATFBR1//AT5G58420//AT5G59850//AT5G64680
GO:0009451	RNA modification	BP	3.16679668133073e-80	emb2386//AtTRM82//AT1G09800//AT1G18540//AT1G18850//AT1G20370//AT1G23280//AT1G25260//AT1G26880//RPL10B//AT1G27400//AT1G34030//ARP1//RACK1B//ATNUC-L1//AT1G52930//G-H2AX//NOP56//TIM13//AT1G63660//IMP4//AT1G67430//AP40//AT1G80750//AT2G17360//AT2G20450//EDA27//AT2G21580//AT2G27710//HDA13//TIM10//AT2G32220//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//ATRPL23A//AT2G40010//AT2G41840//RPL16A//AT2G44120//AT2G44860//AT2G45710//AT2G47610//AT3G03920//AT3G03960//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//ATPRMT3//RIP1//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//TOM40//AT3G22660//AT3G23620//ATL5//ATPHB4//CARA//AT3G28900//AT3G44240//AT3G44590//ATHD2A//AT3G47370//ATBBC1//AT3G49910//ATEBP1//AT3G52580//RPL24//AT3G53430//ROC2//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//AT4G10450//AT4G12600//AT4G15000//AT4G15640//AT4G16720//AT4G17390//MORF1//ATFKBP53//ATFIB2//AT4G25730//AT4G29410//RUXF//AT4G30800//NFD1//RPS6//AT4G34670//AT5G02050//AT5G02870//AT5G08180//AT5G09510//AT5G13830//AT5G14600//AT5G15200//AT5G15520//AT5G16130//TOZ//AT5G20160//AT5G22440//ATHD2//AT5G24840//AT5G27770//AT5G35530//OLI7//ATPHB3//AT5G48760//TIM8//ATFBR1//AT5G58420//AT5G59850//AT5G64680
GO:0043414	macromolecule methylation	BP	2.54142393509899e-73	emb2386//AtTRM82//ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G18540//AT1G18850//AT1G23280//AT1G23410//AT1G25260//AT1G26880//RPL10B//AT1G27400//AT1G34030//ARP1//RACK1B//ATNUC-L1//AT1G52930//G-H2AX//NOP56//TIM13//AT1G63660//IMP4//AT1G67430//AP40//CYCB2;4//AT1G80750//AT2G17360//ATPRMT1A//AT2G20450//EDA27//AT2G21580//AT2G27710//HDA13//TIM10//ATPCNA2//AT2G32220//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//AT2G41840//RPL16A//AT2G44120//AT2G44860//AT2G45710//AT2G47610//AT3G02650//AT3G03920//AT3G03960//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//CYC2//ATPRMT3//AT3G13160//AT3G14190//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//TOM40//AT3G22660//AT3G23620//ATL5//ATPHB4//CARA//AT3G28900//AT3G44590//ATHD2A//AT3G47370//ATBBC1//DMS3//AT3G49910//AT3G51280//ATEBP1//AT3G52580//RPL24//AT3G53430//HTA11//AT3G55605//ROC2//AT3G57000//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//AT4G05400//AT4G10450//AT4G12600//AT4G15000//AT4G15640//AT4G16720//AT4G17390//SNI1//ATFKBP53//ATFIB2//AT4G25730//RRP41L//AT4G29410//ATPRMT11//RUXF//AT4G30800//NFD1//RPS6//AT4G31810//AT4G34670//AT4G35850//AT5G02050//AT5G02870//AT5G08180//AT5G09510//AT5G13520//AT5G13830//AT5G14600//AT5G15200//AT5G15520//AT5G16130//TOZ//AT5G20160//AT5G22440//ATHD2//AT5G25580//AT5G27770//AT5G35530//OLI7//ATPHB3//POLA3//AT5G48360//AT5G48760//TIM8//ATFBR1//AT5G53920//AT5G58420//AT5G59850//GR-RBP3//AT5G64680//AT5G67200"
GO:0032259	methylation	BP	1.74693588805617e-72	emb2386//AtTRM82//ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G18540//AT1G18850//AT1G23280//AT1G23410//AT1G25260//AT1G26880//RPL10B//AT1G27400//AT1G34030//ARP1//RACK1B//ATNUC-L1//AT1G52930//G-H2AX//NOP56//TIM13//AT1G63660//IMP4//AT1G67430//AP40//CYCB2;4//AT1G80750//AT2G17360//ATPRMT1A//AT2G20450//EDA27//AT2G21580//AT2G27710//HDA13//TIM10//ATPCNA2//AT2G32220//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//AT2G41840//RPL16A//AT2G44120//AT2G44860//AT2G45710//AT2G47610//AT3G02650//AT3G03920//AT3G03960//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//CYC2//ATPRMT3//AT3G13160//AT3G14190//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//TOM40//AT3G22660//AT3G23620//ATL5//ATPHB4//CARA//AT3G28900//AT3G44590//ATHD2A//AT3G47370//ATBBC1//DMS3//AT3G49910//AT3G51280//ATEBP1//AT3G52580//RPL24//AT3G53430//HTA11//AT3G55605//ROC2//AT3G57000//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//AT4G05400//AT4G10450//AT4G12600//AT4G15000//AT4G15640//AT4G16720//AT4G17390//SNI1//ATFKBP53//ATFIB2//AT4G25730//RRP41L//AT4G29410//ATPRMT11//RUXF//AT4G30800//NFD1//RPS6//AT4G31810//AT4G34670//AT4G35850//AT5G02050//AT5G02870//AT5G08180//AT5G09510//AT5G13520//AT5G13830//AT5G14600//AT5G15200//AT5G15520//AT5G16130//TOZ//AT5G20160//AT5G22440//ATHD2//AT5G25580//AT5G27770//AT5G35530//OLI7//ATPHB3//POLA3//AT5G48360//AT5G48760//TIM8//ATFBR1//AT5G53920//AT5G58420//AT5G59850//GR-RBP3//AT5G64680//AT5G67200"
GO:0042254	ribosome biogenesis	BP	1.38692156245911e-56	emb2386//LIP2//AT1G07070//AT1G15250//PFL//AT1G25260//AT1G26880//AT1G34030//AT1G41880//RACK1B//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//AT1G77750//AT2G05220//AT2G19730//AT2G19740//AT2G20450//EDA27//AT2G34480//RPL24A//AT2G37190//AT2G37990//AT2G39390//ATRPL23A//AT2G40010//AT2G40510//AT2G40590//AT2G44860//AT2G45710//AT2G47610//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G06680//AT3G07750//AT3G09200//AT3G10610//AT3G11250//AT3G13230//AT3G14600//AT3G16080//AT3G16780//RFC3//TOM40//AT3G22230//AtGRP4//ATL5//AT3G28900//ATHD2A//ATBBC1//RPL24//AT3G53430//AT3G53890//AT3G55170//RPL23A2//AT3G55750//ROC2//AT3G56340//AT3G62870//AT4G02230//AT4G04940//AT4G12600//ATGRP2//AT4G18100//ATFIB2//AT4G25730//AT4G26230//AT4G26600//AT4G29410//RPS6//AtLa1//AT5G02610//AT5G04800//AT5G06360//EMB3010//AT5G11240//AT5G11750//AT5G16130//TOZ//AT5G20160//AT5G22100//AT5G22440//AT5G23900//AT5G28060//OLI7//AT5G46430//AT5G47930//ATFBR1//AT5G53070//OLI2//AT5G56710//AT5G56940//RID2//AT5G59240//AT5G60670//RPS28//AT5G64670
GO:0022613	ribonucleoprotein complex biogenesis	BP	4.02533191383863e-56	emb2386//LIP2//AT1G07070//AT1G15250//PFL//AT1G25260//AT1G26880//AT1G34030//AT1G41880//RACK1B//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//AT1G77750//AT2G05220//AT2G19730//AT2G19740//AT2G20450//EDA27//EMA1//AT2G34480//RPL24A//AT2G37190//AT2G37990//AT2G39390//ATRPL23A//AT2G40010//AT2G40510//AT2G40590//AT2G44860//AT2G45710//AT2G47610//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G06680//AT3G07750//AT3G09200//AT3G10610//AT3G11250//AT3G13230//AT3G14600//AT3G16080//AT3G16780//RFC3//TOM40//AT3G22230//AtGRP4//ATL5//AT3G28900//ATHD2A//ATBBC1//RPL24//AT3G53430//AT3G53890//AT3G55170//RPL23A2//AT3G55750//ROC2//AT3G56340//AT3G62870//AT4G02230//AT4G04940//AT4G12600//ATGRP2//AT4G18100//ATFIB2//AT4G25730//AT4G26230//AT4G26600//AT4G29410//RPS6//AtLa1//AT5G02610//AT5G04800//AT5G06360//EMB3010//AT5G11240//AT5G11750//AT5G16130//TOZ//AT5G20160//AT5G22100//AT5G22440//AT5G23900//AT5G28060//OLI7//AT5G46430//AT5G47930//ATFBR1//AT5G53070//OLI2//AT5G56710//AT5G56940//RID2//AT5G59240//AT5G60670//RPS28//AT5G64670
GO:0009220	pyrimidine ribonucleotide biosynthetic p...	BP	7.73877879134541e-47	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0009218	pyrimidine ribonucleotide metabolic proc...	BP	2.99352687784295e-46	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0006221	pyrimidine nucleotide biosynthetic proce...	BP	5.81731941865183e-46	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0006220	pyrimidine nucleotide metabolic process	BP	2.14661506051618e-45	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0072528	pyrimidine-containing compound biosynthe...	BP	2.67675947432341e-44	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:1901576	organic substance biosynthetic process	BP	1.68559863522259e-43	ATGPAT2//emb2386//ATPHB2//RPS15//PDLP2//LIP2//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//AT1G10780//GAPC-2//AT1G13730//AT1G14060//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15250//AtTLP8//HLL//AT1G18540//NFD5//AT1G21340//AT1G21440//AT1G22440//PFL//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//UBC20//PLT2//AT1G52930//GRI//NOP56//ATMYB72//AT1G57660//AT1G57860//XW6//ATH7//ARR3//ARP2//AtLPLAT2//AT1G63660//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AT1G71850//AP40//AT1G74050//AT1G74060//NRP1//CYCB2;4//AT1G76470//AT1G77670//AT1G77750//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G05320//AT2G09990//AT2G15000//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//ATSPX3//AT2G45710//AtSLD2//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07720//AT3G08030//AT3G09200//AT3G09630//AT3G09680//ADK1//AHB2//AT3G10530//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AtMYB10//AT3G13160//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//RLK902//AT3G18760//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G23930//AT3G23940//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//CARA//AT3G28900//BR6OX2//ATBZIP42//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATCDT1B//ATPURM//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G62870//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G11120//AT4G12600//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//UGT84A1//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AT4G25740//AT4G25890//ACS7//AT4G26230//AR192//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//rps15ae//MTO2//AT4G30180//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G07090//CYP75B1//AT5G08180//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//ATIMD1//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//MEX1//AtMYB56//WOX12//AT5G18380//AT5G19730//ATSPX1//ATCPN21//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//GPDHp//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//AT5G48760//AT5G51310//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//ANQ1//AT5G56710//AT5G56940//AT5G57290//AT5G57785//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62300//RPS28//AT5G64650//AT5G64670//ASN2//AT5G65300//AT5G66860//AT5G67200//AT5G67510
GO:0044249	cellular biosynthetic process	BP	3.22812800350939e-42	ATGPAT2//emb2386//ATPHB2//RPS15//PDLP2//LIP2//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G10780//GAPC-2//AT1G13730//AT1G14060//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15250//AtTLP8//HLL//AT1G18540//NFD5//AT1G21340//AT1G21440//PFL//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//UBC20//PLT2//AT1G52930//GRI//NOP56//ATMYB72//AT1G57660//AT1G57860//XW6//ATH7//ARR3//ARP2//AtLPLAT2//AT1G63660//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AT1G71850//AP40//AT1G74050//AT1G74060//CYCB2;4//AT1G76470//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G09990//AT2G15000//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//ATSPX3//AT2G45710//AtSLD2//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07720//AT3G08030//AT3G09200//AT3G09630//AT3G09680//ADK1//AHB2//AT3G10530//AT3G10610//AT3G11250//AT3G11510//CYC2//AML1//ATPRMT3//AtMYB10//AT3G13160//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//RLK902//AT3G18760//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G23930//AT3G23940//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//CARA//AT3G28900//ATBZIP42//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATCDT1B//ATPURM//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G62870//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G11120//AT4G12600//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AT4G25740//AT4G25890//ACS7//AT4G26230//AR192//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//rps15ae//MTO2//AT4G30180//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AT5G13520//ATIMD1//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16130//MEX1//AtMYB56//WOX12//AT5G18380//ATSPX1//ATCPN21//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//AT5G48760//TIM8//AT5G51310//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//ANQ1//AT5G56710//AT5G56940//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62300//RPS28//AT5G64650//AT5G64670//ASN2//AT5G65300//AT5G66860//AT5G67200//AT5G67510
GO:0009058	biosynthetic process	BP	1.74168425981932e-41	ATGPAT2//emb2386//ATPHB2//RPS15//PDLP2//LIP2//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//AT1G10780//GAPC-2//AT1G13730//AT1G14060//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15250//AtTLP8//HLL//AT1G18540//NFD5//AT1G21340//AT1G21440//AT1G22440//PFL//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//UBC20//PLT2//AT1G52930//GRI//NOP56//ATMYB72//AT1G57660//AT1G57860//XW6//ATH7//ARR3//ARP2//AtLPLAT2//AT1G63660//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AT1G71850//AP40//AT1G74050//AT1G74060//NRP1//CYCB2;4//AT1G76470//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G05320//AT2G09990//AT2G15000//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//ATSPX3//AT2G45710//AtSLD2//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07720//AT3G08030//AT3G09200//AT3G09630//AT3G09680//ADK1//AHB2//AT3G10530//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AtMYB10//AT3G13160//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//RLK902//AT3G18760//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G23930//AT3G23940//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//CARA//AT3G28900//BR6OX2//ATBZIP42//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATCDT1B//ATPURM//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G62870//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G11120//AT4G12130//AT4G12600//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//UGT84A1//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AT4G25740//AT4G25890//ACS7//AT4G26230//AR192//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//rps15ae//MTO2//AT4G30180//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G07090//CYP75B1//AT5G08180//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//ATIMD1//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//MEX1//AtMYB56//WOX12//AT5G18380//AT5G19730//ATSPX1//ATCPN21//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//GPDHp//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//AT5G48760//TIM8//AT5G51310//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//ANQ1//AT5G56710//AT5G56940//AT5G57290//AT5G57785//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62300//RPS28//AT5G64650//AT5G64670//ASN2//AT5G65300//AT5G66860//AT5G67200//AT5G67510
GO:0044267	cellular protein metabolic process	BP	6.6529072133428e-41	emb2386//ATPHB2//RPS15//PDLP2//LIP2//ATPRMT10//AT1G05440//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G10780//GAPC-2//AT1G14060//DECOY//CPN10//AT1G15250//HLL//AT1G18540//PFL//AT1G23100//RPL27A//AT1G23410//AT1G25260//AT1G26740//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//UBC20//AT1G57660//AT1G57860//XW6//ATH7//ARP2//AT1G64600//AT1G64880//AT1G66620//AT1G67430//ATELF5A-3//AT1G69990//AT1G70600//AP40//AT1G74050//AT1G74060//AT1G74490//CYCB2;4//AHL29//ATPDI6//AT1G77750//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//AT2G21580//AT2G25210//PGY1//AT2G27710//ATPCNA2//AT2G31610//AT2G32220//HSP60-2//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//AT2G41840//AT2G42710//RPL16A//AT2G44120//AT2G44860//cycp3;1//AT2G45710//AT2G46850//AT2G47610//AtENODL16//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//AT3G07110//AtHsp90-6//AT3G09200//AT3G09630//AT3G09680//AT3G09700//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13580//HSP60-3A//AT3G13882//AT3G14190//AT3G14600//AT3G16080//AT3G16780//RFC3//RPL3P//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G22230//RPS10//AT3G23390//AT3G23930//HSP60//AT3G24830//ATL5//AT3G28900//AT3G44590//AT3G45030//AT3G47370//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49810//AT3G49910//AT3G50230//AT3G50800//AT3G51280//ATEBP1//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPDI1//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//AT3G57000//AT3G57490//AT3G58660//AT3G58690//AT3G58700//AT3G60770//AT3G61610//AT3G62870//AT4G02230//AT4G02800//AT4G02930//AT4G05400//ATCPK4//AT4G10450//AT4G11120//AT4G13170//AT4G14320//AT4G15000//AT4G16720//AT4G17390//AT4G18100//SNI1//RPL16B//AT4G23620//ATFKBP53//AT4G25740//AT4G25890//AT4G26230//AR192//RRP41L//AT4G28360//AT4G29410//rps15ae//ATPRMT11//AT4G30800//NFD1//RPS6//AT4G31810//AtLa1//AT4G34555//AT4G34670//AT4G35850//AT4G36130//AT4G37660//mtHsc70-1//AT5G02610//GSTL1//AT5G02870//AT5G04800//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//EMB3010//AT5G11750//AAC2//AT5G13520//AT5G15200//AT5G15520//PSRP3/2//AT5G16070//AT5G16130//TOZ//AT5G18380//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G25580//LON1//AT5G27770//AT5G27850//AT5G28060//AT5G35530//OLI7//AT5G39850//AT5G40040//POLA3//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//GFA2//AT5G48760//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//OLI2//ANQ1//AT5G56710//AT5G56940//AT5G57290//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//GR-RBP3//AT5G61170//AT5G61880//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0072527	pyrimidine-containing compound metabolic...	BP	8.17321458222795e-41	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0010467	gene expression	BP	1.10645617739417e-40	emb2386//RPS15//AT1G04590//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G15250//AtTLP8//HLL//AT1G18540//AT1G21340//PFL//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//PLT2//ATMYB72//AT1G57660//AT1G57860//XW6//ARR3//ARP2//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AP40//AT1G74050//AT1G74060//CYCB2;4//AT1G77750//AT1G79150//AT1G80750//AT2G01250//AT2G05220//AT2G09990//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20450//AT2G21580//AT2G25210//NF-YB11//PGY1//AT2G27710//HDA13//ATRPAC14//ATPCNA2//AT2G31610//EMA1//AT2G32220//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//HTA8//WTF9//AT2G39390//ATRPL23A//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02790//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G09680//AT3G10610//AT3G11250//AT3G11510//CYC2//AML1//AtMYB10//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14600//ANAC054//AT3G16080//AT3G16780//RFC3//RPL3P//RLK902//AT3G18760//AT3G19500//PLT1//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G24830//ATL5//EDF3//AT3G28900//ATBZIP42//AT3G44590//AT3G45030//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ASML1//HTA11//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//OTP86//AtMYB55//AT4G02230//AT4G02930//AT4G04940//AT4G05400//AT4G10450//AT4G11120//AT4G13170//ATGRP2//AT4G14320//AT4G15000//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//SNI1//RPL16B//AT4G23620//ATPAP24//AT4G25740//AT4G25890//AT4G26230//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//rps15ae//AT4G30180//RUXF//AT4G30800//NFD1//RPS6//AtLa1//RSL2//AT4G34555//AT4G34670//AT4G36130//BEH2//AT4G37660//AT5G02610//AT5G02870//AT5G04800//AT5G06360//AT5G07090//AT5G09500//AT5G09510//EMB3010//AIL6//AT5G11750//ATWRKY75//AT5G13520//AT5G14580//AT5G15200//AT5G15520//PSRP3/2//AtbZIP3//AT5G16130//TOZ//AtMYB56//WOX12//AT5G18380//ATSPX1//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G25580//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//AT5G48360//AT5G48760//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//PTAC15//ANQ1//AT5G56710//AT5G56940//AT5G57290//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G60670//AT5G61170//AT5G61880//AT5G62290//AT5G62300//RPS28//AT5G64650//AT5G64670//AT5G64680//AT5G66860//AT5G67200//AT5G67510
GO:0009987	cellular process	BP	7.04443163722826e-39	ATGPAT2//emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//UGT1//UGT74E2//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//HTB1//AT1G07820//AT1G07930//AT1G08220//AT1G08360//ATSYP111//AT1G08845//AT1G09200//AT1G09470//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//AT1G12600//GAPC-2//ATPSK1//RGF2//AT1G13730//AT1G14060//DECOY//ATXTH28//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//CPN10//AT1G15250//AT1G15420//AT1G15480//AtTLP8//HLL//ATLP-1//AT1G18540//NRP2//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G21440//AT1G22440//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//AT-EXP10//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//AT1G28190//AtG3Pp3//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G33340//AT1G34030//AT1G34510//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//CLE11//AT1G50110//AT1G50400//UBC20//PLT2//AT1G51380//AT1G52930//GRI//G-H2AX//AT1G54770//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//TIM13//ARP2//AtLPLAT2//AT1G63660//AT1G63720//IMP4//AT1G64600//AT1G64880//AtRHD6//AT1G66620//AT1G67430//PAN//AT1G69210//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//AT1G71850//AT1G71870//AP40//CLE1//AT1G73940//ENO1//AT1G74050//AT1G74060//AT1G74240//AT1G74490//ATBS1//NRP1//CYCB2;4//AT1G76470//AHL29//ATPDI6//LYM3//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G04090//AT2G04100//AT2G05220//AT2G09990//AT2G11910//AT2G15000//AtTic21//UGT73B4//PIP2;8//AT2G17360//EMB2296//AT2G19385//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G20710//AT2G21580//AT2G22230//MEL4//ATMES1//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//HIS4//AT2G28780//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//EMB2785//CLE4//CLE7//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G35790//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37470//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41380//AT2G41730//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AtSLD2//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G05810//AT3G06320//AT3G06680//NSN1//AT3G07110//AtRABA5b//AT3G07720//AT3G07750//AtHsp90-6//AT3G08030//iPGAM2//AT3G09200//AT3G09630//AT3G09680//AT3G09700//ADK1//AHB2//AT3G10530//AT3G10610//ATMES17//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G12900//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//RIP1//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//ATRALF23//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//BCAT4//TOM40//AT3G20240//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//AT3G23940//HSP60//AT3G24830//ATL5//IDL1//EDF3//AOC3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49320//AT3G49630//ATBCAT-3//AT3G49810//AT3G49910//AT3G49960//MYB77//AT3G50230//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53220//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//TBL36//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPDI1//ATPURM//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//ATFER3//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G57940//AT3G58060//AT3G58610//AT3G58660//AT3G58690//AT3G58700//ATMTP3//PMD1//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//ATGSTF13//AT3G62870//AT3G62930//OTP86//GAE3//EMB3127//AtMYB55//RGXT2//AT4G01990//AT4G02230//RHS13//AT4G02800//AT4G02930//AT4G03100//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G11120//AT4G12130//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//AT4G15640//AT4G15660//AT4G15830//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G17720//AT4G18100//AT4G18440//SNI1//RPL16B//ATIRT1//MORF1//APR3//AT4G23620//AT4G24830//ATPAP24//TPD1//AtG3Pp2//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//AT4G25790//ATXTH14//AT4G25890//ATNAP1;1//ACS7//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G28820//ATXTH26//ARAC7//ADS1//AT4G29410//rps15ae//ATPRMT11//MTO2//AT4G30180//RUXF//MERI-5//AT4G30320//BRS1//AT4G30800//AT4G30840//NFD1//AT4G31360//RPS6//AT4G31810//AtENODL15//CYP82C4//AtLa1//AT4G33420//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//TFL-1//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G06630//AT5G07090//ATGRP19//AT5G08180//AT5G08400//LAC14//AtmtOM64//AT5G09500//AT5G09510//AtPPa6//EMB3010//AT5G10390//AT5G10400//AIL6//AT5G11240//AT5G11750//AT5G12940//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//ATVDAC3//AT5G15200//AT5G15520//ATRGP2//AT5G15750//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AT5G17630//AtMYB56//WOX12//AT5G18380//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//AT5G19730//ATSPX1//AT5G20160//ATCPN21//AT5G20950//AT5G22100//AT5G22440//ATHD2//H2B//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AtENODL13//AT5G25580//AT5G26200//LON1//AT5G27330//HTA7//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//AT5G38200//Encodes a putative amino acid transporter.//AT5G38890//OLI7//anac094//AT5G39850//AT5G40040//GPDHp//ATPHB3//BTI3//POLA3//AT5G42150//ATS//AT5G42700//NF-YC13//AtPP2-A8//AT5G45590//AT5G45700//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//AT5G51310//At-RS41//HDG7//AT5G52380//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//AT5G57480//RPB5C//AT5G58420//PMR5//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//ATNRT2.4//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//ATFP3//RPS28//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G65300//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//RHS19//AT5G67510
GO:0009165	nucleotide biosynthetic process	BP	1.17910505189836e-38	ATPHB2//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AT4G02930//AT4G04940//ATNDK1//AT4G12600//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:1901293	nucleoside phosphate biosynthetic proces...	BP	1.63163295104345e-38	ATPHB2//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AT4G02930//AT4G04940//ATNDK1//AT4G12600//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0044237	cellular metabolic process	BP	3.29221059296185e-38	ATGPAT2//emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//UGT1//UGT74E2//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//AT1G14060//DECOY//ATXTH28//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G21440//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50110//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//TIM13//ARP2//AtLPLAT2//AT1G63660//IMP4//AT1G64600//AT1G64880//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//AT1G71850//AT1G71870//AP40//AT1G73940//ENO1//AT1G74050//AT1G74060//AT1G74490//NRP1//CYCB2;4//AT1G76470//AHL29//ATPDI6//LYM3//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G09990//AT2G15000//UGT73B4//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//MEL4//ATMES1//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G35790//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41380//AT2G41730//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AtSLD2//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07720//AT3G07750//AtHsp90-6//AT3G08030//AT3G09200//AT3G09630//AT3G09680//AT3G09700//ADK1//AHB2//AT3G10530//AT3G10610//ATMES17//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//RIP1//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//AT3G23940//HSP60//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//ATBCAT-3//AT3G49810//AT3G49910//MYB77//AT3G50230//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//TBL36//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPDI1//ATPURM//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//ATFER3//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58690//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//ATGSTF13//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G11120//AT4G12130//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//MORF1//APR3//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//ACS7//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//MTO2//AT4G30180//RUXF//MERI-5//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtENODL15//AtLa1//AT4G33420//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G07090//AT5G08180//AT5G08400//LAC14//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//ATVDAC3//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATSPX1//AT5G20160//ATCPN21//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//AT5G38200//OLI7//anac094//AT5G39850//AT5G40040//GPDHp//ATPHB3//POLA3//AT5G42150//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//AT5G51310//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//AT5G57480//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G65300//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0044260	cellular macromolecule metabolic process	BP	4.30934043595716e-37	emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G14060//DECOY//ATXTH28//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//AT1G20370//AT1G21340//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64600//AT1G64880//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//AP40//AT1G73940//AT1G74050//AT1G74060//AT1G74490//CYCB2;4//AHL29//ATPDI6//LYM3//AT1G77750//ATGSTU20//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//AT2G21580//AT2G22230//MEL4//AT2G25210//NF-YB11//PGY1//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//AT2G31610//AT2G32220//HSP60-2//AT2G34480//RPS14//AT2G35790//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07750//AtHsp90-6//AT3G09200//AT3G09630//AT3G09680//AT3G09700//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14600//RIP1//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//TOM40//PLT1//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//HSP60//AT3G24830//ATL5//EDF3//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49810//AT3G49910//MYB77//AT3G50230//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//TBL36//ASML1//HTA11//ATCDT1B//ATPDI1//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G58660//AT3G58690//AT3G58700//AT3G60660//AT3G60770//AT3G61610//AT3G62870//OTP86//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//AT4G04940//AT4G05400//ATCPK4//AT4G10450//AT4G11120//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//SNI1//RPL16B//MORF1//AT4G23620//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//AT4G30180//RUXF//MERI-5//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//AT5G04800//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AAC2//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//OLI7//anac094//AT5G39850//AT5G40040//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//GR-RBP3//AT5G61170//AT5G61880//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0009260	ribonucleotide biosynthetic process	BP	1.66525512546623e-35	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//AT4G18440//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0046390	ribose phosphate biosynthetic process	BP	2.51801229830903e-35	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//AT4G18440//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0019538	protein metabolic process	BP	4.15658533161456e-35	emb2386//ATPHB2//RPS15//PDLP2//LIP2//ATPRMT10//AT1G05440//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G10780//GAPC-2//AT1G14060//DECOY//CPN10//AT1G15250//HLL//AT1G18540//ATSBT5.2//AT1G20380//PFL//AT1G23100//RPL27A//AT1G23410//AT1G25260//AT1G26740//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//UBC20//AT1G57660//AT1G57860//XW6//ATH7//SCPL32//ARP2//AT1G64600//AT1G64880//AT1G66620//AT1G67430//ATELF5A-3//AT1G69990//AT1G70600//AP40//AT1G74050//AT1G74060//AT1G74490//CYCB2;4//AHL29//ATPDI6//AT1G77750//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//AT2G21580//AT2G25210//PGY1//AT2G27710//ATPCNA2//AT2G31610//AT2G32220//HSP60-2//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//AT2G41840//AT2G42710//RPL16A//AT2G44120//AT2G44860//cycp3;1//AT2G45710//AT2G46850//AT2G47610//AtENODL16//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//AT3G07110//AtHsp90-6//AT3G09200//AT3G09630//AT3G09680//AT3G09700//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//SCPL15//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G13160//AT3G13580//HSP60-3A//AT3G13882//AT3G14190//AT3G14600//AT3G16080//AT3G16780//RFC3//RPL3P//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G22230//RPS10//AT3G23390//AT3G23930//HSP60//AT3G24830//ATL5//AT3G28900//AT3G44590//AT3G45030//AT3G47370//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49810//AT3G49910//AT3G50230//AT3G50800//AT3G51280//ATEBP1//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//AT3G54400//ATPDI1//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//AT3G57000//AT3G57490//AT3G58660//AT3G58690//AT3G58700//AT3G60770//AT3G61610//AT3G61820//AT3G62870//AT4G02230//AT4G02800//AT4G02930//AT4G05400//ATCPK4//AT4G10450//AT4G11120//AT4G13170//AT4G14320//AT4G15000//AT4G16720//AT4G17390//AT4G18100//SNI1//RPL16B//AT4G23620//ATFKBP53//AT4G25740//AT4G25890//AT4G26230//AR192//RRP41L//AT4G28360//AT4G29410//rps15ae//ATPRMT11//AT4G29920//BRS1//AT4G30800//NFD1//RPS6//AT4G31810//AtLa1//AT4G34555//AT4G34670//AT4G35850//AT4G36130//AT4G37660//mtHsc70-1//AT5G02610//GSTL1//AT5G02870//AT5G04800//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//EMB3010//AT5G11750//AAC2//AT5G13520//AT5G15200//AT5G15520//PSRP3/2//AT5G16070//AT5G16130//TOZ//AT5G18380//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G25580//LON1//AT5G27770//AT5G27850//AT5G28060//AT5G35530//OLI7//AT5G39850//AT5G40040//POLA3//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//GFA2//AT5G48760//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//OLI2//ANQ1//AT5G56710//AT5G56940//AT5G57290//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//GR-RBP3//AT5G61170//AT5G61880//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0071704	organic substance metabolic process	BP	2.7071830108211e-34	ATGPAT2//emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//UGT1//UGT74E2//AT1G06120//AT1G06790//AT1G06990//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//AT1G14060//AT1G14185//DECOY//ATXTH28//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//ATSBT5.2//AT1G20370//AT1G20380//AT1G21340//AT1G21440//AT1G22440//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50110//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//SCPL32//TIM13//ARP2//AtLPLAT2//AT1G63660//IMP4//AT1G64600//AT1G64880//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//ATCEL3//AT1G71850//AT1G71870//AP40//AT1G73940//ENO1//AT1G74050//AT1G74060//AT1G74490//NRP1//CYCB2;4//AT1G76470//AHL29//ATPDI6//LYM3//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G05320//AT2G09990//AT2G15000//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//MEL4//ATMES1//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G35790//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AtSLD2//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04010//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07320//AT3G07720//AT3G07750//AtHsp90-6//AT3G08030//iPGAM2//AT3G09200//AT3G09630//AT3G09680//AT3G09700//ADK1//AHB2//AT3G10530//AT3G10610//ATMES17//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//SCPL15//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//RIP1//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//BCAT4//TOM40//BE1//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//AT3G23940//HSP60//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//ATPHB4//CARA//AT3G27950//AT3G28900//BR6OX2//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//ATBCAT-3//AT3G49810//AT3G49910//MYB77//AT3G50230//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53220//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//TBL36//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPDI1//ATPURM//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58690//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G61820//AT3G62280//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AtGH9C3//AT4G11120//AT4G12130//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//UGT84A1//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//ACS7//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//MTO2//AT4G29920//AT4G30180//RUXF//MERI-5//BRS1//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtENODL15//AtLa1//AT4G33420//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AtPLAIVA//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G07090//CYP75B1//AT5G08180//LAC14//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//AT5G19730//ATSPX1//AT5G20160//ATCPN21//AT5G20950//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//AT5G38200//OLI7//anac094//AT5G39850//AT5G40040//GPDHp//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//AT5G51310//AT5G51830//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//AT5G57785//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G65300//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0043170	macromolecule metabolic process	BP	9.08304927881952e-34	emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G14060//DECOY//ATXTH28//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//ATSBT5.2//AT1G20370//AT1G20380//AT1G21340//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//SCPL32//TIM13//ARP2//AT1G63660//IMP4//AT1G64600//AT1G64880//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//AP40//AT1G73940//AT1G74050//AT1G74060//AT1G74490//CYCB2;4//AHL29//ATPDI6//LYM3//AT1G77750//ATGSTU20//AT1G79150//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//AT2G21580//AT2G22230//MEL4//AT2G25210//NF-YB11//PGY1//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//AT2G31610//EMA1//AT2G32220//HSP60-2//AT2G34480//RPS14//AT2G35790//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07750//AtHsp90-6//AT3G09200//AT3G09630//AT3G09680//AT3G09700//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//SCPL15//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14600//RIP1//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//TOM40//PLT1//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//HSP60//AT3G24830//ATL5//EDF3//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49810//AT3G49910//MYB77//AT3G50230//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//TBL36//ASML1//AT3G54400//HTA11//ATCDT1B//ATPDI1//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G58660//AT3G58690//AT3G58700//AT3G60660//AT3G60770//AT3G61610//AT3G61820//AT3G62870//OTP86//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//AT4G04940//AT4G05400//ATCPK4//AT4G10450//AT4G11120//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//SNI1//RPL16B//MORF1//AT4G23620//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//AT4G29920//AT4G30180//RUXF//MERI-5//BRS1//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//BEH2//AT4G37660//mtHsc70-1//ATBRI1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//AT5G04800//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AAC2//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//OLI7//anac094//AT5G39850//AT5G40040//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//GR-RBP3//AT5G61170//AT5G61880//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0034645	cellular macromolecule biosynthetic proc...	BP	6.9269915852227e-32	emb2386//RPS15//PDLP2//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G10780//AT1G14060//AT1G15250//AtTLP8//HLL//AT1G18540//AT1G21340//PFL//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//UBC20//PLT2//ATMYB72//AT1G57660//AT1G57860//XW6//ATH7//ARR3//ARP2//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AP40//AT1G74050//AT1G74060//CYCB2;4//AT1G77750//ATGSTU20//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20450//AT2G21580//AT2G25210//NF-YB11//PGY1//AT2G27710//ATRPAC14//ATPCNA2//AT2G31610//AT2G32220//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATRPL23A//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02790//AT3G03130//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G09200//AT3G09630//AT3G09680//AT3G10610//AT3G11250//AT3G11510//CYC2//AML1//AtMYB10//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14600//ANAC054//AT3G16080//AT3G16780//RFC3//RPL3P//RLK902//AT3G18760//AT3G19500//PLT1//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G23930//AT3G24830//ATL5//EDF3//AT3G28900//ATBZIP42//AT3G44590//AT3G45030//AT3G45710//ATPHS2//AT3G47370//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//AT3G50800//GATA18//AT3G51280//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ASML1//ATCDT1B//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AT3G57490//AT3G58660//AT3G58700//AT3G60660//AT3G60770//AT3G61610//AT3G62870//AtMYB55//RGXT2//AT4G02230//AT4G02930//AT4G05400//AT4G10450//AT4G11120//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//SNI1//RPL16B//AT4G23620//ATPAP24//AT4G25740//AT4G25890//AT4G26230//AT4G28360//AT4G29410//rps15ae//AT4G30180//AT4G30800//AT4G30840//NFD1//RPS6//RSL2//AT4G34555//AT4G34670//AT4G36130//BEH2//AT4G37660//AT5G01910//AT5G02610//AT5G02870//GYRB2//AT5G04800//AT5G06360//AT5G07090//AT5G09500//AT5G09510//EMB3010//AIL6//AT5G11750//ATWRKY75//AT5G13520//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16130//MEX1//AtMYB56//WOX12//AT5G18380//ATSPX1//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G25580//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//AT5G48760//HDG7//ATFBR1//AT5G52650//AT5G53070//PTAC15//ANQ1//AT5G56710//AT5G56940//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//AT5G61170//AT5G62300//RPS28//AT5G64650//AT5G64670//AT5G66860//AT5G67200//AT5G67510
GO:0009059	macromolecule biosynthetic process	BP	1.03562363285267e-31	emb2386//RPS15//PDLP2//AT1G05440//AT1G06790//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//AT1G08845//AT1G09590//AT1G09690//AT1G10780//AT1G14060//AT1G15250//AtTLP8//HLL//AT1G18540//AT1G21340//PFL//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//RACK1B//AT1G48830//UBC20//PLT2//ATMYB72//AT1G57660//AT1G57860//XW6//ATH7//ARR3//ARP2//AT1G64600//AT1G64880//AT1G67430//PAN//ATELF5A-3//AT1G70600//ATWHY2//AP40//AT1G74050//AT1G74060//CYCB2;4//AT1G77750//ATGSTU20//AT1G80750//AT2G01250//AtPP2-B6//AT2G05220//AT2G09990//AT2G17360//EMB2296//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20450//AT2G21580//AT2G22230//AT2G25210//NF-YB11//PGY1//AT2G27710//ATRPAC14//ATPCNA2//AT2G31610//AT2G32220//AT2G34480//RPS14//AT2G36160//AT2G36170//RPL24A//AT2G37190//ATRPS5B//AT2G37600//AT2G39390//ATRPL23A//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02790//AT3G03130//AT3G04230//RPSAb//AT3G04840//AT3G04920//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G09200//AT3G09630//AT3G09680//AT3G10610//AT3G11250//AT3G11510//CYC2//AML1//AtMYB10//AT3G13580//AT3G13882//AT3G13940//AT3G14190//AT3G14600//ANAC054//AT3G16080//AT3G16780//RFC3//RPL3P//RLK902//AT3G18760//AT3G19500//PLT1//AT3G21330//AT3G22230//RPS10//AT3G23390//AT3G23930//AT3G24830//ATL5//EDF3//AT3G28900//ATBZIP42//AT3G44590//AT3G45030//AT3G45710//ATPHS2//AT3G47370//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//AT3G50800//GATA18//AT3G51280//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ASML1//ATCDT1B//AT3G55170//RPL23A2//AT3G55750//AT3G56340//BHLH038//AT3G57490//AT3G58660//AT3G58700//AT3G60660//AT3G60770//AT3G61610//AT3G62870//AtMYB55//RGXT2//AT4G02230//AT4G02930//AT4G05400//AT4G10450//AT4G11120//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//SNI1//RPL16B//AT4G23620//ATPAP24//AT4G25740//AT4G25890//AT4G26230//AT4G28360//AT4G29410//rps15ae//AT4G30180//AT4G30800//AT4G30840//NFD1//RPS6//RSL2//AT4G34555//AT4G34670//AT4G36130//BEH2//AT4G37660//ATBRI1//AT5G01910//AT5G02610//AT5G02870//GYRB2//AT5G04800//AT5G06360//AT5G07090//AT5G09500//AT5G09510//EMB3010//AIL6//AT5G11750//ATWRKY75//AT5G13140//AT5G13520//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16130//MEX1//AtMYB56//WOX12//AT5G18380//ATSPX1//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G25580//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//AT5G39850//AT5G40040//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47700//AT5G47930//AT5G48760//HDG7//ATFBR1//AT5G52650//AT5G53070//PTAC15//ANQ1//AT5G56710//AT5G56940//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59240//AT5G59850//AT5G60670//AT5G60710//AT5G61170//AT5G62300//RPS28//AT5G64650//AT5G64670//AT5G66860//AT5G67200//AT5G67510
GO:0044238	primary metabolic process	BP	2.60440454769512e-31	ATGPAT2//emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//UGT1//AT1G06120//AT1G06790//AT1G06990//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//AT1G14060//DECOY//ATXTH28//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//ATSBT5.2//AT1G20370//AT1G20380//AT1G21340//AT1G22440//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50110//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//SCPL32//TIM13//ARP2//AtLPLAT2//AT1G63660//IMP4//AT1G64600//AT1G64880//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//ATCEL3//AT1G71850//AT1G71870//AP40//AT1G73940//ENO1//AT1G74050//AT1G74060//AT1G74490//NRP1//CYCB2;4//AHL29//ATPDI6//AT1G77670//AT1G77750//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G05320//AT2G09990//AT2G15000//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//FLA6//AT2G21580//AT2G22230//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G35790//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AtSLD2//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04010//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07320//AT3G07750//AtHsp90-6//iPGAM2//AT3G09200//AT3G09630//AT3G09680//AT3G09700//ADK1//AHB2//AT3G10530//AT3G10610//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//SCPL15//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//RIP1//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//BCAT4//TOM40//BE1//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//AT3G23940//HSP60//AT3G24830//ATL5//EDF3//ATPHB4//CARA//AT3G27950//AT3G28900//BR6OX2//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//ATBCAT-3//AT3G49810//AT3G49910//MYB77//AT3G50230//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPDI1//ATPURM//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58690//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G61820//AT3G62280//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AtGH9C3//AT4G11120//AT4G12600//AT4G13170//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//ACS7//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//MTO2//AT4G29920//AT4G30180//RUXF//MERI-5//BRS1//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34555//AT4G34670//AT4G35850//AT4G36130//AT4G36580//BEH2//AtPLAIVA//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//SIR//AT5G04800//AT5G06360//AT5G07090//AT5G08180//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATSPX1//AT5G20160//ATCPN21//AT5G20950//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//AT5G38200//OLI7//anac094//AT5G39850//AT5G40040//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//AT5G51310//AT5G51830//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//AT5G67510
GO:0009259	ribonucleotide metabolic process	BP	5.99506948220959e-30	NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//AT4G17390//AT4G18440//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0008152	metabolic process	BP	4.2629782179136e-29	ATFRO2//ATGPAT2//emb2386//AtTRM82//AT1G03830//ATPHB2//RPS15//PDLP2//AT1G04590//LIP2//ATPRMT10//AT1G05440//UGT1//UGT74E2//AT1G06120//AT1G06790//AT1G06990//AT1G07070//AT1G07210//ATPCNA1//AT1G07930//AT1G08360//ATSYP111//AT1G08845//AT1G09590//AT1G09690//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//AT1G14060//AT1G14185//DECOY//ATXTH28//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//CPN10//AT1G15250//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//ATSBT5.2//AT1G20370//AT1G20380//AT1G21340//AT1G21440//AT1G22440//PFL//AT1G23100//AT1G23280//RPL27A//AT1G23410//AT1G25260//AT1G26470//AT1G26740//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//ATIMD3//NFD3//AT1G32190//AT1G33120//AT1G34030//AT1G34510//AT1G35610//AT1G41880//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50110//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//AT1G56680//AT1G57660//AT1G57860//XW6//ATH7//ARR3//SCPL32//TIM13//ARP2//AtLPLAT2//AT1G63660//IMP4//AT1G64600//AT1G64880//CYP89A7//CYP89A5//AT1G66620//AT1G67430//PAN//ATELF5A-3//AT1G69990//AT1G70600//ATWHY2//ATCEL3//AT1G71850//AT1G71870//AP40//AT1G73940//ENO1//AT1G74050//AT1G74060//AT1G74490//NRP1//CYCB2;4//AT1G76470//AHL29//ATPDI6//LYM3//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AT1G80750//AT2G01250//AtPP2-B6//AtSOT1//AT2G05220//AT2G05320//AT2G09990//AT2G15000//UGT73B4//AT2G17360//EMB2296//ATPRMT1A//AT2G19730//AT2G19740//AT2G19750//AT2G20060//AT2G20420//AT2G20450//EDA27//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//MEL4//ATMES1//AT2G25210//NPC2//NF-YB11//PGY1//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//AT2G31610//EMA1//AT2G31790//AT2G32220//HSP60-2//WDR55//AT2G34480//RPS14//AT2G35040//AT2G35790//AT2G36160//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//ATRPS5B//AT2G37600//AT2G37990//AT2G38160//HTA8//AT2G39040//WTF9//AT2G39390//ATMTP11//ATRPL23A//AT2G39795//AteIF3f//AT2G40010//AT2G40510//AT2G40590//AT2G40660//BHLH100//AT2G41380//AT2G41730//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//cycp3;1//ATSPX3//AT2G45710//AtSLD2//AT2G46850//IAA20//AT2G47610//AtENODL16//AT3G01410//AT3G01790//AT3G02080//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//AT3G04010//AT3G04230//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//AT3G06320//AT3G06680//NSN1//AT3G07110//AT3G07320//AT3G07720//AT3G07750//AtHsp90-6//AT3G08030//iPGAM2//AT3G09200//AT3G09630//AT3G09680//AT3G09700//ADK1//AHB2//AT3G10530//AT3G10610//ATMES17//AT3G11250//AT3G11510//CYC2//AT3G11830//AML1//SCPL15//ATPRMT3//AT3G12340//NANA//AtMYB10//AT3G12900//AT3G13160//AT3G13230//AT3G13580//HSP60-3A//AT3G13882//AT3G13940//AT3G14190//AT3G14390//AT3G14600//RIP1//mMDH2//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RFC3//RPL3P//RACK1C//AT3G18600//ATPUB29//RLK902//AT3G18760//AT3G19440//AT3G19500//BCAT4//TOM40//CYP705A23//BE1//PLT1//ATPURC//AT3G21330//AT3G22230//RPS10//AT3G22660//AT3G23390//AT3G23620//AtGRP4//AT3G23930//AT3G23940//HSP60//AT3G24830//ATL5//EDF3//AOC3//CYP71B15//ATPHB4//CARA//AT3G27950//AT3G28900//AtSDR4//BR6OX2//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G45030//AT3G45710//AT3G46280//ATPHS2//AT3G47370//BIR6//AtMYB45//EMB1080//ATBBC1//AT3G49080//DMS3//AT3G49630//ATBCAT-3//AT3G49810//AT3G49910//AT3G49960//MYB77//AT3G50230//AtDWF4//BEH1//AT3G50800//GATA18//AT3G51280//AtSDR2//ATEBP1//AT3G52440//AT3G52580//EMB2167//RPL24//AT3G53220//AT3G53430//AT3G53740//AT3G53870//AT3G53890//ATPUMP1//TBL36//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPDI1//ATPURM//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//ATFER3//IMK3//AT3G56340//BHLH038//AT3G57000//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58690//AT3G58700//ATMTP3//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G61610//AT3G61820//CYP78A9//AT3G62280//ATGSTF13//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//RGXT2//AT4G02230//AT4G02800//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AtGH9C3//AT4G11120//AT4G12130//AT4G12600//AT4G13170//AT4G13210//ATLEUC1//CYP83A1//ATGRP2//AT4G14320//AT4G15000//CYP702A2//CYP705A2//CYP705A3//UGT84A1//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18100//AT4G18440//SNI1//RPL16B//MORF1//APR3//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATXTH14//AT4G25890//ATNAP1;1//ACS7//AT4G26230//AT4G26600//AR192//RRP41L//AT4G28360//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//ATXTH26//AT4G29410//rps15ae//ATPRMT11//MTO2//AT4G29920//AT4G30180//RUXF//MERI-5//BRS1//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtENODL15//CYP82C4//AtLa1//AT4G33420//RSL2//AT4G34360//AT4G34555//AT4G34670//AT4G35850//AT4G36130//CYP84A1//AT4G36580//BEH2//AtPLAIVA//AT4G37660//mtHsc70-1//ATBRI1//ATIPS1//AT5G01910//AT5G02050//AT5G02610//GSTL1//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G05880//AT5G06360//AT5G07090//CYP75B1//AT5G08180//AT5G08400//LAC14//AT5G09500//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//AT5G11750//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//ATVDAC3//AT5G15200//AT5G15520//ATRGP2//PSRP3/2//AtbZIP3//AT5G16070//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//AT5G18380//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//AT5G19730//ATSPX1//AT5G20160//ATCPN21//AT5G20950//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G23535//RPS11-BETA//AT5G23900//AT5G24840//AT5G25580//LON1//AT5G27330//AT5G27770//AT5G27850//AT5G28060//ATWRKY74//AT5G35530//BGLU42//AT5G38200//OLI7//anac094//AT5G39850//AT5G40040//AT5G40590//GPDHp//ATPHB3//POLA3//AT5G42150//ATS//AT5G42700//NF-YC13//AT5G45590//AT5G45775//AT5G46430//AT5G47210//AT5G47700//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//AT5G51310//AT5G51830//At-RS41//HDG7//ATFBR1//AT5G52650//AT5G53070//AT5G53920//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56710//AT5G56940//RID2//AT5G57290//AT5G57480//AT5G57785//RPB5C//AT5G58420//BSK5//AT5G59070//AT5G59240//AT5G59850//AT5G60670//AT5G60710//AT5G60730//COBL5//GR-RBP3//PDCB1//AT5G61170//AT5G61880//AT5G62210//AT5G62290//AT5G62300//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G65300//AT5G65920//AT5G66060//AT5G66080//AT5G66860//AT5G67200//RHS19//AT5G67510
GO:0006807	nitrogen compound metabolic process	BP	2.52793163028562e-28	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//UGT1//UGT74E2//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//ATIMD3//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50110//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//AT2G22230//NF-YB11//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44040//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G08030//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//AT3G14390//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//ATBCAT-3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G59890//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//AT4G02930//APR//DES-1-LIKE//AT4G04940//AT4G05400//ATNDK1//AT4G10450//AT4G12600//ATLEUC1//CYP83A1//ATGRP2//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//ACS7//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//MTO2//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34670//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//ATIPS1//AT5G01910//AT5G02050//AT5G02870//GYRB2//SIR//ATNAS1//AT5G06360//AT5G07090//AT5G08180//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13140//AK//AT5G13520//AT5G13830//ATIMD1//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATSPX1//AT5G20160//ATCPN21//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//AT5G38200//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G60710//GR-RBP3//PDCB1//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G66060//AT5G67200
GO:0009117	nucleotide metabolic process	BP	2.06546523496181e-27	ATPHB2//LIP2//ATPCNA1//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//GAE3//AT4G02930//AT4G04940//ATNDK1//AT4G12600//CYP83A1//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATRGP2//MEX1//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0006753	nucleoside phosphate metabolic process	BP	3.04816643683912e-27	ATPHB2//LIP2//ATPCNA1//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//GAE3//AT4G02930//AT4G04940//ATNDK1//AT4G12600//CYP83A1//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATRGP2//MEX1//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0006725	cellular aromatic compound metabolic pro...	BP	1.11283844912681e-26	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//UGT1//UGT74E2//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G76470//AT1G77750//ATGSTU20//AT1G79150//PPR596//AT1G80750//AtSOT1//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//AT2G21580//ATMES1//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07720//AT3G07750//AT3G08030//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G12600//CYP83A1//ATGRP2//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34670//AT4G35850//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02870//GYRB2//SIR//AT5G06360//AT5G07090//AT5G08180//LAC14//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//ATWRKY75//TRA2//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G60710//COBL5//GR-RBP3//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G67200
GO:0034641	cellular nitrogen compound metabolic pro...	BP	1.26094028645918e-26	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//UGT74E2//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//ATGSTU14//AT1G27400//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G77670//AT1G77750//GNR1//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G08030//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//AT4G10450//AT4G12600//CYP83A1//ATGRP2//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34670//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02870//GYRB2//SIR//ATNAS1//AT5G06360//AT5G07090//AT5G08180//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//GR-RBP3//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//ASN2//AT5G67200
GO:0046483	heterocycle metabolic process	BP	2.96555873961698e-26	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//UGT74E2//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G77750//ATGSTU20//AT1G79150//PPR596//AT1G80750//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G08030//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//CYP71B15//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//AT4G10450//AT4G12600//CYP83A1//ATGRP2//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34670//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02870//GYRB2//SIR//ATNAS1//AT5G06360//AT5G07090//AT5G08180//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G60710//GR-RBP3//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G66060//AT5G67200
GO:0055086	nucleobase-containing small molecule met...	BP	3.24497133902032e-26	AtTRM82//ATPHB2//LIP2//ATPCNA1//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//ADK1//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//GAE3//AT4G02930//AT4G04940//ATNDK1//AT4G12600//CYP83A1//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATRGP2//MEX1//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0006139	nucleobase-containing compound metabolic...	BP	3.25659954862782e-26	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G77750//AT1G79150//PPR596//AT1G80750//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//AT2G21580//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//AtMYB55//AT4G02930//AT4G04940//AT4G05400//ATNDK1//AT4G10450//AT4G12600//CYP83A1//ATGRP2//AT4G15000//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//RSL2//AT4G34670//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02870//GYRB2//AT5G06360//AT5G07090//AT5G08180//AT5G09510//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//GR-RBP3//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G67200
GO:1901137	carbohydrate derivative biosynthetic pro...	BP	1.35716407911459e-25	GAPC-2//NFD5//AT1G21440//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//AT2G31790//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//ATSPX3//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//ADK1//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//BCAT4//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//APR//AT4G04940//ATNDK1//ATLEUC1//CYP83A1//AT4G17390//AT4G18440//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//ATIPS1//AT5G02050//AT5G02870//SIR//AT5G07090//AtPPa6//AT5G11240//ATWRKY75//ATIMD1//MEX1//ATSPX1//ATHD2//PYRD//OLI7//GPDHp//AT5G47210//ATRBP45A//AT5G59070//GR-RBP3//AT5G61880//AT5G64670
GO:1901360	organic cyclic compound metabolic proces...	BP	1.91874535390907e-25	emb2386//AtTRM82//AT1G03830//ATPHB2//AT1G04590//LIP2//AT1G05440//UGT1//UGT74E2//AT1G06790//ATPCNA1//ATSYP111//DRB1//AT1G09800//AT1G10780//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//NFD5//AT1G20370//AT1G21340//AT1G22440//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//AT1G48570//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//GRI//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//ARP2//AT1G63660//IMP4//AT1G64880//AT1G67430//PAN//ATWHY2//AT1G71850//AP40//AT1G73940//CYCB2;4//AT1G76470//AT1G77750//ATGSTU20//AT1G79150//PPR596//AT1G80750//AtSOT1//AT2G15000//AT2G17360//AT2G20060//AT2G20450//EDA27//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G21580//ATMES1//NF-YB11//AT2G27710//HDA13//ATSMO2//TIM10//ATRPAC14//ATPCNA2//ASP1//EMA1//AT2G32220//HSP60-2//WDR55//RPS14//AT2G35040//AT2G35790//AT2G36170//APG10//RPL24A//AT2G37020//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02650//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07720//AT3G07750//AT3G08030//AT3G09200//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G13230//AT3G13940//AT3G14190//RIP1//AT3G15140//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//AT3G23940//ATL5//EDF3//CYP71B15//ATPHB4//CARA//AT3G28900//BR6OX2//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//AtDWF4//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//HTA11//ATCDT1B//ATPURM//ROC2//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G58700//AT3G59670//AT3G60660//AT3G60770//AT3G62870//OTP86//GAE3//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G10450//AT4G12600//CYP83A1//ATGRP2//AT4G15000//CYP702A2//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//MORF1//AT4G23620//AT4G24830//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//AR192//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AT4G31810//AtLa1//AT4G33420//RSL2//AT4G34670//AT4G35850//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G01910//AT5G02050//AT5G02870//GYRB2//SIR//ATNAS1//AT5G06360//AT5G07090//AT5G08180//LAC14//AT5G09510//AtPPa6//EMB3010//AIL6//AT5G11240//ATWRKY75//TRA2//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//ATRGP2//AtbZIP3//AT5G16130//TOZ//MEX1//AtMYB56//WOX12//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//ATRBP45A//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//COBL5//GR-RBP3//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G66060//AT5G67200
GO:0090407	organophosphate biosynthetic process	BP	1.97369160147685e-25	ATGPAT2//ATPHB2//LIP2//ATPCNA1//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//NPC2//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//ATMTP11//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AT4G02930//AT4G04940//ATNDK1//AT4G12600//CYP83A1//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//ATIPS1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//MEX1//ATCPN21//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//GPDHp//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0019693	ribose phosphate metabolic process	BP	6.54345844605092e-25	LIP2//GAPC-2//NFD5//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//AT4G02930//AT4G04940//ATNDK1//CYP83A1//AT4G17390//AT4G18440//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//AT5G02050//AT5G02870//AT5G07090//AT5G11240//MEX1//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//AT5G61880//AT5G64670
GO:0043412	macromolecule modification	BP	4.69940720182445e-23	emb2386//AtTRM82//PDLP2//LIP2//ATPRMT10//AT1G05440//ATPCNA1//AT1G09800//AT1G10780//AT1G14060//DECOY//AT1G18540//AT1G18850//AT1G20370//AT1G23280//AT1G23410//AT1G25260//AT1G26880//RPL10B//AT1G27400//AT1G32190//AT1G34030//ARP1//RACK1B//ATNUC-L1//AT1G52930//G-H2AX//NOP56//ATH7//TIM13//AT1G63660//IMP4//AT1G66620//AT1G67430//ATELF5A-3//AT1G69990//AP40//AT1G74490//CYCB2;4//AHL29//AT1G80750//AtPP2-B6//AT2G17360//ATPRMT1A//AT2G20450//EDA27//AT2G21580//AT2G27710//HDA13//TIM10//ATPCNA2//AT2G32220//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//AT2G38160//HTA8//ATRPL23A//AT2G39795//AT2G40010//AT2G40660//AT2G41840//RPL16A//AT2G44120//AT2G44860//cycp3;1//AT2G45710//AT2G46850//AT2G47610//AT3G02650//AT3G03920//AT3G03960//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13160//AT3G14190//AT3G14600//RIP1//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//ATPUB29//AT3G19440//TOM40//AT3G22660//AT3G23620//AT3G23930//ATL5//ATPHB4//CARA//AT3G28900//AT3G44240//AT3G44590//ATHD2A//AT3G47370//ATBBC1//DMS3//AT3G49810//AT3G49910//AT3G50230//AT3G50800//AT3G51280//ATEBP1//AT3G52580//EMB2167//RPL24//AT3G53430//HTA11//AT3G55605//ROC2//IMK3//AT3G57000//AtCBF5//AT3G57490//AT3G58660//AT3G58690//AT3G58700//AT3G60770//AT3G61610//AT3G62870//AT4G02800//AT4G05400//ATCPK4//AT4G10450//AT4G12600//AT4G15000//AT4G15640//AT4G16720//AT4G17390//SNI1//MORF1//ATFKBP53//ATFIB2//AT4G25730//RRP41L//AT4G29410//ATPRMT11//RUXF//AT4G30800//NFD1//RPS6//AT4G31810//AtLa1//AT4G34670//AT4G35850//AT5G02050//GSTL1//AT5G02870//AT5G08180//AT5G09510//AT5G13520//AT5G13830//AT5G14600//AT5G15200//AT5G15520//AT5G16130//TOZ//AT5G20160//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27770//AT5G35530//OLI7//ATPHB3//POLA3//AT5G48360//AT5G48760//TIM8//HDG7//ATFBR1//AT5G53920//ANQ1//AT5G58420//BSK5//AT5G59850//AT5G60710//GR-RBP3//AT5G61880//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680//AT5G65920//AT5G66060//AT5G66080//AT5G67200
GO:0071840	cellular component organization or bioge...	BP	5.98163687254275e-23	emb2386//ATPHB2//LIP2//ATPRMT10//AT1G05440//UGT1//AT1G07070//ATPCNA1//HTB1//AT1G07820//AT1G08220//ATSYP111//AT1G09200//AT1G10780//GAPC-2//AT1G14060//DECOY//AT1G15250//AT1G15420//AT1G15480//ATLP-1//NRP2//AT1G18850//AT1G20370//PFL//AT1G23410//AT1G25260//AT1G26470//AT-EXP10//AT1G26880//AT1G27400//AT1G28190//AT1G33340//AT1G34030//AT1G41880//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//AT1G52930//G-H2AX//AT1G54770//ATH7//TIM13//ARP2//IMP4//AtRHD6//ATELF5A-3//AP40//AT1G73940//ENO1//NRP1//CYCB2;4//LYM3//AT1G77750//AtSOT1//AT2G05220//AT2G11910//AT2G19385//ATPRMT1A//AT2G19730//AT2G19740//AT2G20420//AT2G20450//EDA27//AT2G22230//HIS4//TIM10//ATPCNA2//EMB2785//EMA1//HSP60-2//WDR55//AT2G34480//AT2G36160//APG10//RPL24A//AT2G37190//AT2G37470//AT2G37990//AT2G38160//HTA8//WTF9//AT2G39390//ATRPL23A//AT2G39795//AT2G40010//AT2G40510//AT2G40590//AT2G40660//PYM//AT2G42720//AT2G44860//AT2G45710//AT2G47610//AT3G01410//AT3G02560//AT3G02650//AT3G03920//AT3G03960//RPSAb//AT3G04920//AT3G05810//AT3G06680//AT3G07750//AT3G09200//AT3G09630//AT3G09700//AT3G10610//AT3G11250//CYC2//AT3G11830//ATPRMT3//AT3G13160//AT3G13230//AT3G14190//AT3G14600//AT3G16080//AT3G16780//RFC3//AT3G18600//TOM40//AT3G22230//AT3G22660//AtGRP4//HSP60//AT3G24830//ATL5//AOC3//CYP71B15//AT3G28900//ATHD2A//AT3G45710//ATBBC1//DMS3//AT3G49320//AtDWF4//AT3G51280//AT3G52580//RPL24//AT3G53430//AT3G53890//HTA11//ATCDT1B//AT3G55170//RPL23A2//AT3G55605//AT3G55750//ROC2//AT3G56340//AT3G57000//PMD1//AT3G62870//RGXT2//AT4G02230//AT4G02800//AT4G03100//DES-1-LIKE//AT4G04940//AT4G05400//AT4G12130//AT4G12600//ATGRP2//AT4G15830//ATHB-2//AT4G17390//AT4G18100//SNI1//ATFKBP53//ATFIB2//AT4G25730//AT4G25740//ATNAP1;1//AT4G26230//AT4G26600//AR192//RRP41L//ARAC7//AT4G29410//ATPRMT11//MERI-5//AT4G30800//NFD1//RPS6//AT4G31810//AtENODL15//AtLa1//RSL2//AT4G35850//ATBRI1//AT5G02610//AT5G02870//GYRB2//SIR//AT5G04800//ATNAS1//AT5G06360//AT5G06630//ATGRP19//AT5G08180//AT5G08400//AtmtOM64//AtPPa6//EMB3010//AT5G10390//AT5G10400//AT5G11240//AT5G11750//AT5G13140//AAC2//AT5G13520//AT5G14580//ATRGP2//AT5G15750//AT5G16070//AT5G16130//TOZ//AT5G19730//AT5G20160//ATCPN21//AT5G22100//AT5G22440//H2B//AT5G23900//AT5G24840//AtENODL13//AT5G25580//LON1//HTA7//AT5G28060//AT5G38890//OLI7//ATPHB3//BTI3//POLA3//AT5G42150//AT5G46430//AT5G47930//GFA2//AT5G48360//AT5G48760//TIM8//ATFBR1//AT5G52650//AT5G53070//PTAC15//OLI2//AT5G56710//AT5G56940//RID2//PMR5//AT5G59240//AT5G59850//AT5G60670//GR-RBP3//PDCB1//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64670//AT5G64680//AT5G67200
GO:0016070	RNA metabolic process	BP	2.28278606197579e-21	emb2386//AtTRM82//AT1G04590//LIP2//AT1G05440//AT1G06790//DRB1//AT1G09800//AtTLP8//HLL//AT1G18540//AT1G18850//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//RACK1B//AT1G48830//ATNUC-L1//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//AT1G63660//IMP4//AT1G67430//PAN//ATWHY2//AP40//AT1G73940//CYCB2;4//AT1G77750//AT1G80750//AT2G17360//AT2G20060//AT2G20450//EDA27//AT2G21580//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//AT2G32220//RPS14//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G40010//AT2G40660//BHLH100//AT2G41840//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02790//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//CYC2//ATPRMT3//AtMYB10//AT3G13230//AT3G13940//RIP1//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//TOM40//PLT1//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//ATL5//EDF3//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//ROC2//BHLH038//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60770//AT3G62870//OTP86//AtMYB55//AT4G04940//AT4G05400//AT4G10450//AT4G12600//ATGRP2//AT4G15000//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//SNI1//MORF1//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//AT4G26600//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//NFD1//RPS6//AtLa1//RSL2//AT4G34670//BEH2//AT4G37660//AT5G02050//AT5G02870//AT5G06360//AT5G08180//AT5G09510//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//AtbZIP3//AT5G16130//TOZ//AtMYB56//WOX12//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//OLI2//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G67200
GO:1901566	organonitrogen compound biosynthetic pro...	BP	3.95299527466788e-21	LIP2//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//ATIMD3//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//ATWHY2//AT1G71850//AT1G77670//ATGSTU20//AT1G79150//PPR596//AT2G15000//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G22230//ATSMO2//ASP1//HSP60-2//WDR55//AT2G35040//APG10//AT2G37020//AT2G39795//AT2G40660//AT2G44040//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G14390//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//BCAT4//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CYP71B15//CARA//ATHD2A//AT3G49080//ATEBP1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59890//EMB3127//AT4G02930//APR//DES-1-LIKE//AT4G04940//ATNDK1//AT4G12600//ATLEUC1//CYP83A1//CYP702A2//AT4G17390//AT4G18440//AT4G23620//AT4G24830//ATFIB2//ACS7//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//MTO2//AT4G31810//AtLa1//AT4G35850//AT4G36580//ATIPS1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AtPPa6//AT5G11240//AT5G13140//AK//ATIMD1//ATCPN21//ATHD2//PYRD//OLI7//AT5G47210//ATRBP45A//GR-RBP3//PDCB1//AT5G61880//AT5G64670//ASN2
GO:0044085	cellular component biogenesis	BP	5.23780086565477e-20	emb2386//ATPHB2//LIP2//UGT1//AT1G07070//HTB1//AT1G07820//AT1G08220//ATSYP111//AT1G09200//AT1G15250//NRP2//PFL//AT1G25260//AT1G26880//AT1G33340//AT1G34030//AT1G41880//RACK1B//AT1G48830//ATNUC-L1//UBC20//AT1G52930//G-H2AX//IMP4//AP40//AT1G73940//NRP1//AT1G77750//AT2G05220//AT2G19730//AT2G19740//AT2G20420//AT2G20450//EDA27//AT2G22230//HIS4//EMA1//AT2G34480//APG10//RPL24A//AT2G37190//AT2G37470//AT2G37990//WTF9//AT2G39390//ATRPL23A//AT2G40010//AT2G40510//AT2G40590//AT2G44860//AT2G45710//AT2G47610//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G06680//AT3G07750//AT3G09200//AT3G10610//AT3G11250//CYC2//AT3G13230//AT3G14600//AT3G16080//AT3G16780//RFC3//TOM40//AT3G22230//AtGRP4//HSP60//ATL5//AT3G28900//ATHD2A//AT3G45710//ATBBC1//RPL24//AT3G53430//AT3G53890//AT3G55170//RPL23A2//AT3G55750//ROC2//AT3G56340//AT3G62870//RGXT2//AT4G02230//AT4G04940//AT4G12130//AT4G12600//ATGRP2//AT4G15830//AT4G18100//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26230//AT4G26600//AT4G29410//RPS6//AtENODL15//AtLa1//ATBRI1//AT5G02610//AT5G04800//AT5G06360//AT5G08400//EMB3010//AT5G10390//AT5G10400//AT5G11240//AT5G11750//AT5G16130//TOZ//AT5G20160//AT5G22100//AT5G22440//H2B//AT5G23900//LON1//HTA7//AT5G28060//OLI7//AT5G46430//AT5G47930//ATFBR1//AT5G53070//OLI2//AT5G56710//AT5G56940//RID2//AT5G59240//AT5G60670//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64670
GO:0090304	nucleic acid metabolic process	BP	2.88933862699014e-19	emb2386//AtTRM82//AT1G03830//AT1G04590//LIP2//AT1G05440//AT1G06790//ATPCNA1//DRB1//AT1G09800//AT1G10780//AT1G15480//AtTLP8//HLL//AT1G18540//AT1G18850//AT1G20370//AT1G21340//AT1G23280//AT1G23410//AT1G25260//AT1G26470//ANAC009//AT1G26880//RPL10B//AT1G27400//NFD3//AT1G34030//ARP1//RACK1B//AT1G48830//ATNUC-L1//AT1G50400//UBC20//PLT2//AT1G52930//G-H2AX//NOP56//ATMYB72//ARR3//TIM13//AT1G63660//IMP4//AT1G67430//PAN//ATWHY2//AP40//AT1G73940//CYCB2;4//AT1G77750//AT1G80750//AT2G17360//AT2G20060//AT2G20450//EDA27//AT2G21580//NF-YB11//AT2G27710//HDA13//TIM10//ATRPAC14//ATPCNA2//AT2G32220//RPS14//AT2G35790//AT2G36170//RPL24A//AT2G37190//AT2G37990//HTA8//WTF9//ATRPL23A//AT2G40010//AT2G40660//BHLH100//AT2G41840//PYM//AT2G42710//AT2G42720//RPL16A//AT2G44120//AT2G44860//ATSPX3//AT2G45710//IAA20//AT2G47610//AT3G01410//AT3G01790//AT3G02560//AT3G02790//AT3G03130//AT3G03920//AT3G03960//RPSAb//AT3G04840//AT3G04920//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G05560//NSN1//AT3G07110//AT3G07750//AT3G09200//AT3G09630//AT3G10610//AT3G11510//CYC2//ATPRMT3//AT3G12340//AtMYB10//AT3G13230//AT3G13940//AT3G14190//RIP1//ANAC054//AT3G15460//AT3G16080//AT3G16780//RACK1C//AT3G18600//AT3G19440//AT3G19500//TOM40//PLT1//AT3G21330//RPS10//AT3G22660//AT3G23620//AtGRP4//ATL5//EDF3//ATPHB4//CARA//AT3G28900//ATBZIP42//AT3G44240//AT3G44590//ATHD2A//AT3G47370//BIR6//AtMYB45//ATBBC1//AT3G49080//DMS3//AT3G49910//MYB77//BEH1//GATA18//AT3G51280//ATEBP1//AT3G52440//AT3G52580//RPL24//AT3G53430//AT3G53890//ASML1//HTA11//ATCDT1B//ROC2//BHLH038//AtCBF5//AT3G57490//AT3G58660//AT3G58700//AT3G60660//AT3G60770//AT3G62870//OTP86//AtMYB55//AT4G04940//AT4G05400//AT4G10450//AT4G12600//ATGRP2//AT4G15000//AT4G15640//AT4G16720//ATHB-2//AT4G17390//HAT1//SNI1//MORF1//ATPAP24//ATFKBP53//ATFIB2//AT4G25730//ATNAP1;1//AT4G26600//RRP41L//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//RUXF//AT4G30800//AT4G30840//NFD1//RPS6//AtLa1//RSL2//AT4G34670//BEH2//AT4G37660//AT5G01910//AT5G02050//AT5G02870//GYRB2//AT5G06360//AT5G08180//AT5G09510//EMB3010//AIL6//AT5G11240//ATWRKY75//AT5G13520//AT5G13830//AT5G14580//AT5G14600//AT5G15200//AT5G15520//AtbZIP3//AT5G16130//TOZ//AtMYB56//WOX12//ATSPX1//AT5G20160//AT5G22100//AT5G22440//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27770//AT5G28060//ATWRKY74//AT5G35530//OLI7//anac094//ATPHB3//POLA3//ATS//AT5G42700//NF-YC13//AT5G48360//AT5G48760//TIM8//At-RS41//HDG7//ATFBR1//PTAC15//OLI2//ANQ1//AT5G56940//RID2//RPB5C//AT5G58420//AT5G59240//AT5G59850//AT5G61880//AT5G62290//AT5G64650//AT5G64670//AT5G64680//AT5G67200
GO:0019637	organophosphate metabolic process	BP	6.01332917050908e-18	ATGPAT2//ATPHB2//LIP2//ATPCNA1//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//AT1G23410//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//ARP2//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//NPC2//HDA13//ASP1//EMA1//HSP60-2//WDR55//AT2G35040//AT2G37020//ATMTP11//AT2G39795//AT2G40660//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//AT3G10530//AT3G10610//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//TOM40//ATPURC//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//GAE3//AT4G02930//AT4G04940//ATNDK1//AT4G12600//CYP83A1//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//ATIPS1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AT5G11240//ATRGP2//MEX1//ATCPN21//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//GPDHp//AT5G47210//ATRBP45A//AT5G59240//GR-RBP3//AT5G61880//AT5G64670
GO:0006364	rRNA processing	BP	1.85226199905797e-16	LIP2//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//EDA27//AT2G37990//AT2G44860//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G07750//AT3G13230//TOM40//AtGRP4//ATHD2A//AT3G53890//ROC2//AT4G04940//AT4G12600//ATGRP2//ATFIB2//AT4G25730//AT4G26600//RPS6//AtLa1//EMB3010//AT5G11240//AT5G16130//TOZ//AT5G20160//AT5G22440//AT5G28060//ATFBR1//OLI2//RID2//AT5G59240
GO:0016072	rRNA metabolic process	BP	2.50129343677864e-16	LIP2//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//EDA27//AT2G37990//AT2G44860//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G07750//AT3G13230//TOM40//AtGRP4//ATHD2A//AT3G53890//ROC2//AT4G04940//AT4G12600//ATGRP2//ATFIB2//AT4G25730//AT4G26600//RPS6//AtLa1//EMB3010//AT5G11240//AT5G16130//TOZ//AT5G20160//AT5G22440//AT5G28060//ATFBR1//OLI2//RID2//AT5G59240
GO:1901135	carbohydrate derivative metabolic proces...	BP	1.31223190645251e-14	AtTRM82//LIP2//GAPC-2//NFD5//AT1G21440//AT1G23280//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G52930//NOP56//AT1G63660//AT1G64880//AT1G71850//AT1G79150//PPR596//AT2G15000//ASP1//AT2G31790//HSP60-2//WDR55//AT2G35040//AT2G37020//AT2G39795//AT2G40660//ATSPX3//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G09630//ADK1//AT3G10530//ATPRMT3//AT3G13160//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//BCAT4//TOM40//RPS10//AT3G23940//ATL5//CARA//ATHD2A//AT3G49080//ATEBP1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G57490//AT3G57940//AT3G58660//GAE3//AT4G02930//APR//AT4G04940//ATNDK1//ATLEUC1//CYP83A1//AT4G17390//AT4G18440//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G31810//AtLa1//AT4G35850//AT4G36580//ATIPS1//AT5G02050//AT5G02870//SIR//AT5G07090//AtPPa6//AT5G11240//ATWRKY75//ATIMD1//ATRGP2//MEX1//ATSPX1//ATCPN21//ATHD2//PYRD//OLI7//GPDHp//AT5G47210//ATRBP45A//AT5G59070//GR-RBP3//AT5G61880//AT5G64670
GO:0034470	ncRNA processing	BP	2.34531897386293e-14	AtTRM82//LIP2//DRB1//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//EDA27//AT2G37990//AT2G44860//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G07750//AT3G13230//TOM40//AtGRP4//ATHD2A//AT3G53890//ROC2//AT4G04940//AT4G12600//ATGRP2//ATFIB2//AT4G25730//AT4G26600//RPS6//AtLa1//EMB3010//AT5G11240//AT5G14600//AT5G16130//TOZ//AT5G20160//AT5G22440//AT5G24840//AT5G28060//ATFBR1//OLI2//RID2//AT5G59240
GO:0042274	ribosomal small subunit biogenesis	BP	3.02715159858239e-14	AT1G48830//AP40//AT2G05220//AT3G02560//RPSAb//AT3G04920//AT3G10610//AT3G53890//RPS6//AT5G04800//EMB3010//AT5G16130//AT5G28060//AT5G59240
GO:1901564	organonitrogen compound metabolic proces...	BP	3.83787721646953e-14	AtTRM82//LIP2//UGT1//UGT74E2//GAPC-2//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G23280//ATGSTU14//ATIMD3//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G50110//AT1G52930//NOP56//AT1G63660//AT1G64880//ATWHY2//AT1G71850//AT1G77670//ATGSTU20//AT1G79150//PPR596//AT2G15000//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G22230//ATSMO2//ASP1//HSP60-2//WDR55//AT2G35040//APG10//AT2G37020//AT2G39795//AT2G40660//AT2G44040//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//ATMES17//ATPRMT3//AT3G13160//AT3G14390//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//BCAT4//TOM40//ATPURC//RPS10//AT3G23940//ATL5//EDF3//CYP71B15//CARA//ATHD2A//AT3G49080//ATBCAT-3//ATEBP1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59890//EMB3127//AT4G02930//APR//DES-1-LIKE//AT4G04940//ATNDK1//AT4G12600//ATLEUC1//CYP83A1//CYP702A2//AT4G17390//AT4G18440//AT4G23620//AT4G24830//ATFIB2//ACS7//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//MTO2//AT4G31810//AtLa1//AT4G33420//AT4G35850//AT4G36580//ATIPS1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AtPPa6//AT5G11240//AT5G13140//AK//ATIMD1//MEX1//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATCPN21//ATHD2//PYRD//AT5G38200//OLI7//AT5G47210//ATRBP45A//AT5G60710//GR-RBP3//PDCB1//AT5G61880//AT5G64670//ASN2//AT5G66060
GO:0044281	small molecule metabolic process	BP	9.91299277719294e-13	emb2386//AtTRM82//ATPHB2//LIP2//AT1G05440//UGT1//UGT74E2//AT1G06790//ATPCNA1//ATSYP111//AT1G09800//GAPC-2//AT1G13730//AT1G14185//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G21440//AT1G22440//AT1G23280//AT1G23410//ATIMD3//NFD3//AT1G48570//RACK1B//ATNUC-L1//AT1G50110//AT1G52930//GRI//NOP56//ATH7//ARP2//AT1G63660//AT1G64880//ATWHY2//AT1G71850//AT1G71870//AP40//ENO1//NRP1//ATPDI6//AT1G77670//GNR1//ATGSTU20//AT1G79150//GAPCP-1//PPR596//AtSOT1//AT2G15000//AT2G20420//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G22230//ATMES1//HDA13//ATSMO2//ASP1//EMA1//AT2G31790//HSP60-2//WDR55//AT2G35040//APG10//AT2G37020//ATMTP11//AT2G39795//AT2G40660//AT2G44040//AtSLD2//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G07720//AT3G09630//ADK1//AHB2//AT3G10530//AT3G10610//ATMES17//AT3G11830//ATPRMT3//AT3G13160//AT3G14390//mMDH2//AT3G15140//AT3G15460//AT3G16780//RFC3//RACK1C//AT3G18600//AT3G19440//BCAT4//TOM40//ATPURC//RPS10//AT3G23940//ATL5//AOC3//CYP71B15//CARA//BR6OX2//ATHD2A//AT3G49080//ATBCAT-3//AtDWF4//ATEBP1//AT3G53220//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPDI1//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AT3G59890//GAE3//EMB3127//AT4G02930//APR//DES-1-LIKE//AT4G04940//ATNDK1//ATCPK4//AT4G12130//AT4G12600//ATLEUC1//CYP83A1//CYP702A2//AT4G17390//AT4G18440//AT4G24830//ATFIB2//AT4G25730//ACS7//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//MTO2//AT4G31810//AtLa1//AT4G35850//AT4G36580//mtHsc70-1//ATIPS1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AT5G08180//AtPPa6//AT5G11240//AT5G13140//AK//TRA2//AT5G13520//AT5G13830//ATIMD1//ATRGP2//MEX1//similar to Eucalyptus gunnii alcohol dehydrogenase of unknown physiological function (GI:1143445), apple tree, PIR:T16995; NOT a cinnamyl-alcohol dehydrogenase//ATCPN21//ATHD2//PYRD//AT5G24840//AT5G27330//AT5G38200//OLI7//AT5G47210//AT5G51310//AT5G53920//ATRBP45A//AT5G59240//COBL5//GR-RBP3//PDCB1//AT5G61880//AT5G62210//AT5G64670//ASN2//AT5G66060
GO:0006414	translational elongation	BP	3.25668901515037e-12	AT1G07930//ATELF5A-3//AT2G05220//AT2G27710//AT2G40010//AT3G04920//AT3G09200//AT3G10610//AT3G11250//AT3G44590//AT3G53890//AT4G02930//AT4G11120//AT4G25890//AT5G04800//AT5G28060//AT5G40040//AT5G47700//AT5G57290//AT5G59240
GO:0007005	mitochondrion organization	BP	8.70439464587576e-12	AT1G08220//AT1G14060//AT1G15420//AT1G18850//AT1G26470//AT1G54770//TIM13//AT2G19385//TIM10//EMB2785//AT2G37990//AT3G07750//TOM40//AT3G22660//HSP60//AT3G49320//AT3G55605//AT3G57000//PMD1//AR192//AtmtOM64//AT5G14580//AT5G15750//AT5G24840//LON1//AT5G38890//ATPHB3//AT5G42150//TIM8//GR-RBP3//AT5G62290//AT5G64680
GO:0000478	endonucleolytic cleavage involved in rRN...	BP	5.16460846878303e-11	ATNUC-L1//IMP4//AP40//AT2G37990//RPSAb//AT3G07750//ATHD2A//AT3G53890//AtLa1//AT5G11240//AT5G20160//ATFBR1
GO:0090502	RNA phosphodiester bond hydrolysis, endo...	BP	5.16460846878303e-11	ATNUC-L1//IMP4//AP40//AT2G37990//RPSAb//AT3G07750//ATHD2A//AT3G53890//AtLa1//AT5G11240//AT5G20160//ATFBR1
GO:0006626	protein targeting to mitochondrion	BP	7.34524303820186e-11	AT1G14060//AT1G15420//AT1G18850//AT1G26470//AT1G54770//TIM13//AT2G19385//TIM10//EMB2785//AT2G37990//AT3G07750//TOM40//AT3G22660//HSP60//AT3G49320//AT3G55605//AT3G57000//AR192//AtmtOM64//AT5G15750//AT5G24840//AT5G38890//ATPHB3//AT5G42150//TIM8//GR-RBP3//AT5G62290//AT5G64680
GO:0070585	protein localization to mitochondrion	BP	7.34524303820186e-11	AT1G14060//AT1G15420//AT1G18850//AT1G26470//AT1G54770//TIM13//AT2G19385//TIM10//EMB2785//AT2G37990//AT3G07750//TOM40//AT3G22660//HSP60//AT3G49320//AT3G55605//AT3G57000//AR192//AtmtOM64//AT5G15750//AT5G24840//AT5G38890//ATPHB3//AT5G42150//TIM8//GR-RBP3//AT5G62290//AT5G64680
GO:0072655	establishment of protein localization to...	BP	7.34524303820186e-11	AT1G14060//AT1G15420//AT1G18850//AT1G26470//AT1G54770//TIM13//AT2G19385//TIM10//EMB2785//AT2G37990//AT3G07750//TOM40//AT3G22660//HSP60//AT3G49320//AT3G55605//AT3G57000//AR192//AtmtOM64//AT5G15750//AT5G24840//AT5G38890//ATPHB3//AT5G42150//TIM8//GR-RBP3//AT5G62290//AT5G64680
GO:0006325	chromatin organization	BP	1.12640687934722e-10	ATPRMT10//AT1G05440//ATPCNA1//HTB1//AT1G07820//AT1G09200//AT1G10780//DECOY//NRP2//AT1G20370//AT1G23410//G-H2AX//NRP1//CYCB2;4//AT2G11910//ATPRMT1A//HIS4//ATPCNA2//AT2G37470//AT2G38160//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//AT3G05810//AT3G09700//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//HTA11//AT3G55605//AT3G57000//AT4G02800//AT4G05400//AT4G17390//SNI1//ATFKBP53//ATNAP1;1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G10390//AT5G10400//AT5G13520//H2B//AT5G25580//HTA7//POLA3//ATFBR1//PMR5//GR-RBP3//AT5G67200
GO:0006839	mitochondrial transport	BP	1.42465294074179e-10	AT1G14060//AT1G15420//AT1G18850//AT1G26470//AT1G54770//TIM13//AT1G74240//AT2G19385//TIM10//EMB2785//AT2G37990//AT3G07750//TOM40//AT3G20240//AT3G22660//HSP60//AT3G49320//ATPUMP1//AT3G55605//AT3G57000//AR192//AtmtOM64//AT5G15750//AT5G24840//AT5G26200//AT5G38890//ATPHB3//AT5G42150//TIM8//GR-RBP3//AT5G62290//AT5G64680
GO:0000469	cleavage involved in rRNA processing	BP	1.45155625268509e-10	ATNUC-L1//IMP4//AP40//AT2G37990//RPSAb//AT3G07750//ATHD2A//AT3G53890//AtLa1//AT5G11240//AT5G20160//ATFBR1
GO:0034660	ncRNA metabolic process	BP	1.55350998783505e-10	AtTRM82//LIP2//DRB1//AT1G48830//ATNUC-L1//AT1G52930//IMP4//AP40//AT1G73940//EDA27//ATRPAC14//AT2G37990//AT2G40660//AT2G44860//AT3G02560//AT3G03920//RPSAb//AT3G04920//AT3G07750//AT3G13230//TOM40//AtGRP4//ATHD2A//AT3G53890//ROC2//AT4G04940//AT4G12600//ATGRP2//ATFIB2//AT4G25730//AT4G26600//RPS6//AtLa1//EMB3010//AT5G11240//AT5G14600//AT5G16130//TOZ//AT5G20160//AT5G22440//AT5G24840//AT5G28060//ATFBR1//OLI2//RID2//AT5G59240
GO:0072594	establishment of protein localization to...	BP	2.4210139614502e-10	AT1G03830//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G54770//TIM13//AT1G63660//AT1G79150//PPR596//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AT5G09840//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G38890//ATPHB3//AT5G42150//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680
GO:0090501	RNA phosphodiester bond hydrolysis	BP	3.69126270845857e-10	ATNUC-L1//IMP4//AP40//AT2G37990//RPSAb//AT3G07750//ATHD2A//AT3G53890//AtLa1//AT5G11240//AT5G20160//ATFBR1
GO:0033365	protein localization to organelle	BP	6.27567047877905e-10	AT1G03830//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G54770//TIM13//AT1G63660//AT1G79150//PPR596//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AT5G09840//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G38890//ATPHB3//AT5G42150//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680
GO:0016482	cytoplasmic transport	BP	6.54918830577826e-10	AT1G03830//AT1G13730//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G54770//TIM13//AT1G63660//AP40//AT1G79150//PPR596//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//ATL5//AT3G46280//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AT5G09840//AAC2//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G38890//ATPHB3//AT5G42150//AT5G48650//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28//AT5G64680
GO:0044711	single-organism biosynthetic process	BP	6.58442505827093e-10	ATGPAT2//emb2386//ATPHB2//LIP2//AT1G05440//ATPCNA1//ATSYP111//GAPC-2//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//NFD5//AT1G21440//AT1G22440//AT1G23280//AT1G23410//ATIMD3//NFD3//AT1G48570//RACK1B//ATNUC-L1//UBC20//AT1G52930//GRI//NOP56//ARP2//AtLPLAT2//AT1G63660//AT1G64880//ATELF5A-3//ATWHY2//AT1G71850//NRP1//AT1G76470//AT1G77670//ATGSTU20//AT1G79150//PPR596//AtSOT1//AT2G05320//AT2G15000//AT2G20420//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//AT2G22230//NPC2//HDA13//ATSMO2//ATPCNA2//ASP1//EMA1//AT2G31790//HSP60-2//WDR55//AT2G35040//APG10//AT2G37020//ATMTP11//AT2G39795//AT2G40660//PYM//AT2G44040//ATSPX3//AtSLD2//AT3G02650//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//AT3G07720//AT3G08030//AT3G09630//ADK1//AHB2//AT3G10530//AT3G10610//CYC2//AT3G11830//ATPRMT3//AT3G13160//AT3G14390//AT3G15140//AT3G15460//AT3G16780//RACK1C//AT3G18600//BCAT4//TOM40//ATPURC//RPS10//AT3G23940//ATL5//AOC3//CYP71B15//CARA//BR6OX2//ATHD2A//AT3G45710//ATPHS2//AT3G49080//AtDWF4//ATEBP1//ASML1//AT3G54400//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AT3G59890//EMB3127//RGXT2//AT4G02930//APR//DES-1-LIKE//AT4G04940//ATNDK1//ATCPK4//AT4G12600//ATLEUC1//CYP83A1//CYP702A2//AT4G17390//AT4G18440//AT4G23620//AT4G24830//ATPAP24//ATFIB2//ACS7//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//MTO2//AT4G31810//AtLa1//AT4G35850//CYP84A1//AT4G36580//mtHsc70-1//ATBRI1//ATIPS1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//CYP75B1//AT5G08180//AtPPa6//AT5G11240//ATWRKY75//AT5G13140//AK//TRA2//AAC2//AT5G13520//ATIMD1//ATRGP2//AT5G16070//MEX1//ATSPX1//ATCPN21//ATHD2//PYRD//AT5G24840//AT5G27330//OLI7//AT5G47210//AT5G51310//AT5G53920//PTAC15//ATRBP45A//AT5G59070//AT5G59240//COBL5//GR-RBP3//PDCB1//AT5G61880//AT5G62210//AT5G64670//ASN2
GO:0044271	cellular nitrogen compound biosynthetic ...	BP	9.13158126191346e-10	ATPHB2//LIP2//AT1G05440//AT1G06790//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AtTLP8//HLL//NFD5//AT1G21340//AT1G23280//AT1G23410//AT1G26470//ANAC009//NFD3//AT1G48570//RACK1B//ATNUC-L1//PLT2//AT1G52930//NOP56//ATMYB72//ARR3//ARP2//AT1G63660//AT1G64880//PAN//ATWHY2//AT1G71850//CYCB2;4//AT1G77750//GNR1//ATGSTU20//AT1G79150//PPR596//AT2G15000//AT2G20060//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//NF-YB11//HDA13//ATRPAC14//ATPCNA2//ASP1//EMA1//HSP60-2//WDR55//RPS14//AT2G35040//AT2G37020//AT2G39795//AT2G40660//BHLH100//AT2G42710//AT2G42720//ATSPX3//IAA20//AT3G01410//AT3G01790//AT3G02650//AT3G02790//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//NSN1//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//CYC2//ATPRMT3//AtMYB10//AT3G13160//AT3G13940//AT3G15140//ANAC054//AT3G15460//AT3G16780//RACK1C//AT3G18600//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G23940//ATL5//EDF3//CYP71B15//CARA//ATBZIP42//ATHD2A//AtMYB45//AT3G49080//DMS3//MYB77//BEH1//GATA18//ATEBP1//AT3G52440//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//AT4G12600//CYP83A1//ATGRP2//CYP702A2//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//NFD1//AT4G31810//AtLa1//RSL2//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AT5G08180//AtPPa6//AIL6//AT5G11240//ATWRKY75//AtbZIP3//AtMYB56//WOX12//ATSPX1//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//ATWRKY74//OLI7//anac094//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//HDG7//ATFBR1//PTAC15//ATRBP45A//RPB5C//AT5G59240//GR-RBP3//AT5G61880//AT5G64650//AT5G64670//ASN2//AT5G67200
GO:0006996	organelle organization	BP	2.18118728741507e-09	ATPHB2//ATPRMT10//AT1G05440//UGT1//ATPCNA1//HTB1//AT1G07820//AT1G08220//ATSYP111//AT1G09200//AT1G10780//GAPC-2//AT1G14060//DECOY//AT1G15420//AT1G15480//ATLP-1//NRP2//AT1G18850//AT1G20370//AT1G23410//AT1G26470//AT1G33340//AT1G50400//UBC20//AT1G52930//G-H2AX//AT1G54770//ATH7//TIM13//AP40//NRP1//CYCB2;4//AT2G05220//AT2G11910//AT2G19385//ATPRMT1A//EDA27//HIS4//TIM10//ATPCNA2//EMB2785//HSP60-2//WDR55//APG10//AT2G37470//AT2G37990//AT2G38160//HTA8//AT2G39795//AT2G40660//AT2G42720//AT3G01410//AT3G02650//AT3G03920//AT3G03960//RPSAb//AT3G05810//AT3G07750//AT3G09700//AT3G10610//CYC2//ATPRMT3//AT3G13160//AT3G14190//AT3G16780//AT3G18600//TOM40//AT3G22660//HSP60//DMS3//AT3G49320//AT3G51280//HTA11//ATCDT1B//AT3G55605//AT3G57000//PMD1//AT4G02800//AT4G03100//AT4G05400//AT4G15830//AT4G17390//SNI1//ATFKBP53//ATNAP1;1//AR192//RRP41L//ARAC7//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AtENODL15//AT4G35850//GYRB2//SIR//AT5G04800//AT5G08180//AtmtOM64//AT5G10390//AT5G10400//AAC2//AT5G13520//AT5G14580//AT5G15750//AT5G16070//TOZ//ATCPN21//H2B//AT5G24840//AtENODL13//AT5G25580//LON1//HTA7//AT5G38890//ATPHB3//BTI3//POLA3//AT5G42150//GFA2//AT5G48360//TIM8//ATFBR1//PTAC15//PMR5//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680//AT5G67200
GO:0018130	heterocycle biosynthetic process	BP	2.18169350473113e-09	ATPHB2//LIP2//AT1G05440//AT1G06790//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AtTLP8//HLL//NFD5//AT1G21340//AT1G23280//AT1G23410//AT1G26470//ANAC009//NFD3//AT1G48570//RACK1B//ATNUC-L1//PLT2//AT1G52930//NOP56//ATMYB72//ARR3//ARP2//AT1G63660//AT1G64880//PAN//ATWHY2//AT1G71850//CYCB2;4//AT1G77750//ATGSTU20//AT1G79150//PPR596//AT2G15000//AT2G20060//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//NF-YB11//HDA13//ATRPAC14//ATPCNA2//ASP1//EMA1//HSP60-2//WDR55//RPS14//AT2G35040//APG10//AT2G37020//AT2G39795//AT2G40660//BHLH100//AT2G42710//AT2G42720//ATSPX3//IAA20//AT3G01410//AT3G01790//AT3G02650//AT3G02790//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//NSN1//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//CYC2//ATPRMT3//AtMYB10//AT3G13160//AT3G13940//AT3G15140//ANAC054//AT3G15460//AT3G16780//RACK1C//AT3G18600//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G23940//ATL5//EDF3//CYP71B15//CARA//ATBZIP42//ATHD2A//AtMYB45//AT3G49080//DMS3//MYB77//BEH1//GATA18//ATEBP1//AT3G52440//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//AT4G12600//CYP83A1//ATGRP2//CYP702A2//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//NFD1//AT4G31810//AtLa1//RSL2//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AT5G08180//AtPPa6//AIL6//AT5G11240//ATWRKY75//AtbZIP3//AtMYB56//WOX12//ATSPX1//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//ATWRKY74//OLI7//anac094//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//HDG7//ATFBR1//PTAC15//ATRBP45A//RPB5C//AT5G59240//GR-RBP3//AT5G61880//AT5G64650//AT5G64670//AT5G67200
GO:0034654	nucleobase-containing compound biosynthe...	BP	2.39654087491193e-09	ATPHB2//AT1G05440//AT1G06790//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AtTLP8//HLL//NFD5//AT1G21340//AT1G23280//AT1G23410//AT1G26470//ANAC009//NFD3//AT1G48570//RACK1B//ATNUC-L1//PLT2//AT1G52930//NOP56//ATMYB72//ARR3//ARP2//AT1G63660//AT1G64880//PAN//ATWHY2//AT1G71850//CYCB2;4//AT1G77750//AT1G79150//PPR596//AT2G15000//AT2G20060//NF-YB11//HDA13//ATRPAC14//ATPCNA2//ASP1//EMA1//HSP60-2//WDR55//RPS14//AT2G35040//AT2G37020//AT2G39795//AT2G40660//BHLH100//AT2G42710//AT2G42720//ATSPX3//IAA20//AT3G01410//AT3G01790//AT3G02650//AT3G02790//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//NSN1//AT3G09630//ADK1//AT3G10530//AT3G10610//CYC2//ATPRMT3//AtMYB10//AT3G13160//AT3G13940//AT3G15140//ANAC054//AT3G15460//AT3G16780//RACK1C//AT3G18600//AT3G19500//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G23940//ATL5//EDF3//CARA//ATBZIP42//ATHD2A//AtMYB45//AT3G49080//DMS3//MYB77//BEH1//GATA18//ATEBP1//AT3G52440//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//AtMYB55//AT4G02930//AT4G04940//AT4G05400//ATNDK1//AT4G12600//ATGRP2//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//AT4G24830//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//NFD1//AT4G31810//AtLa1//RSL2//AT4G35850//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G02050//AT5G02870//AT5G07090//AT5G08180//AIL6//AT5G11240//ATWRKY75//AtbZIP3//AtMYB56//WOX12//ATSPX1//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//ATWRKY74//OLI7//anac094//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//HDG7//ATFBR1//PTAC15//ATRBP45A//RPB5C//AT5G59240//GR-RBP3//AT5G61880//AT5G64650//AT5G64670//AT5G67200
GO:0019438	aromatic compound biosynthetic process	BP	2.87941403827128e-09	ATPHB2//LIP2//AT1G05440//AT1G06790//ATPCNA1//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AtTLP8//HLL//NFD5//AT1G21340//AT1G23280//AT1G23410//AT1G26470//ANAC009//NFD3//AT1G48570//RACK1B//ATNUC-L1//PLT2//AT1G52930//GRI//NOP56//ATMYB72//ARR3//ARP2//AT1G63660//AT1G64880//PAN//ATWHY2//AT1G71850//CYCB2;4//AT1G76470//AT1G77750//ATGSTU20//AT1G79150//PPR596//AtSOT1//AT2G15000//AT2G20060//NF-YB11//HDA13//ATRPAC14//ATPCNA2//ASP1//EMA1//HSP60-2//WDR55//RPS14//AT2G35040//APG10//AT2G37020//AT2G39795//AT2G40660//BHLH100//AT2G42710//AT2G42720//ATSPX3//IAA20//AT3G01410//AT3G01790//AT3G02650//AT3G02790//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//NSN1//AT3G07720//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//CYC2//ATPRMT3//AtMYB10//AT3G13160//AT3G13940//AT3G15140//ANAC054//AT3G15460//AT3G16780//RACK1C//AT3G18600//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G23940//ATL5//EDF3//CYP71B15//CARA//ATBZIP42//ATHD2A//AtMYB45//AT3G49080//DMS3//MYB77//BEH1//GATA18//ATEBP1//AT3G52440//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G12600//CYP83A1//ATGRP2//CYP702A2//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//NFD1//AT4G31810//AtLa1//RSL2//AT4G35850//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G02050//AT5G02870//SIR//AT5G07090//AT5G08180//AtPPa6//AIL6//AT5G11240//ATWRKY75//TRA2//AtbZIP3//AtMYB56//WOX12//ATSPX1//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//ATWRKY74//OLI7//anac094//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//HDG7//ATFBR1//PTAC15//ATRBP45A//RPB5C//AT5G59240//COBL5//GR-RBP3//AT5G61880//AT5G64650//AT5G64670//AT5G67200
GO:0051276	chromosome organization	BP	4.19169184362236e-09	ATPRMT10//AT1G05440//ATPCNA1//HTB1//AT1G07820//AT1G09200//AT1G10780//DECOY//AT1G15480//NRP2//AT1G20370//AT1G23410//AT1G50400//G-H2AX//NRP1//CYCB2;4//AT2G11910//ATPRMT1A//HIS4//ATPCNA2//AT2G37470//AT2G38160//HTA8//AT2G39795//AT2G40660//AT2G42720//AT3G01410//AT3G02650//AT3G03920//AT3G03960//AT3G05810//AT3G09700//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//HTA11//ATCDT1B//AT3G55605//AT3G57000//AT4G02800//AT4G05400//AT4G17390//SNI1//ATFKBP53//ATNAP1;1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//GYRB2//AT5G08180//AT5G10390//AT5G10400//AT5G13520//TOZ//H2B//AT5G25580//HTA7//POLA3//ATFBR1//PMR5//GR-RBP3//AT5G67200
GO:0006479	protein methylation	BP	9.86142184959443e-09	ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//ATPRMT3//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G05400//AT4G17390//SNI1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//ATFBR1//AT5G53920//GR-RBP3//AT5G67200
GO:0008213	protein alkylation	BP	9.86142184959443e-09	ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//ATPRMT3//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G05400//AT4G17390//SNI1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//ATFBR1//AT5G53920//GR-RBP3//AT5G67200
GO:0018022	peptidyl-lysine methylation	BP	1.77072803314722e-08	ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G17390//SNI1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//GR-RBP3//AT5G67200
GO:0034968	histone lysine methylation	BP	1.77072803314722e-08	ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G17390//SNI1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//GR-RBP3//AT5G67200
GO:1901362	organic cyclic compound biosynthetic pro...	BP	1.95192557622113e-08	ATPHB2//LIP2//AT1G05440//AT1G06790//ATPCNA1//ATSYP111//AT1G13730//encodes an aspartate semialdehyde dehydrogenase, which produces the branch point intermediate for lysine and threonine/methionine biosynthesis//AtTLP8//HLL//NFD5//AT1G21340//AT1G22440//AT1G23280//AT1G23410//AT1G26470//ANAC009//NFD3//AT1G48570//RACK1B//ATNUC-L1//PLT2//AT1G52930//GRI//NOP56//ATMYB72//ARR3//ARP2//AT1G63660//AT1G64880//PAN//ATWHY2//AT1G71850//CYCB2;4//AT1G76470//AT1G77750//ATGSTU20//AT1G79150//PPR596//AtSOT1//AT2G15000//AT2G20060//FLA6//A synthetic gene encoding the catalytic domain of the Arabidopsis thaliana gene At2g20690 was recombinant expressed in E. coli demonstrating the molecular function of riboflavin synthase.//NF-YB11//HDA13//ATSMO2//ATRPAC14//ATPCNA2//ASP1//EMA1//HSP60-2//WDR55//RPS14//AT2G35040//APG10//AT2G37020//AT2G39795//AT2G40660//BHLH100//AT2G42710//AT2G42720//ATSPX3//IAA20//AT3G01410//AT3G01790//AT3G02650//AT3G02790//AT3G03960//AT3G04840//SAR DNA-binding protein, putative, strong similarity to SAR DNA-binding protein-1 (Pisum sativum) GI:3132696; contains Pfam profile PF01798: Putative snoRNA binding domain; encodes NOP58-like protein//NSN1//AT3G07720//AT3G08030//AT3G09630//ADK1//AT3G10530//AT3G10610//CYC2//ATPRMT3//AtMYB10//AT3G13160//AT3G13940//AT3G15140//ANAC054//AT3G15460//AT3G16780//RACK1C//AT3G18600//AT3G19500//BCAT4//TOM40//PLT1//ATPURC//AT3G21330//RPS10//AT3G23940//ATL5//EDF3//CYP71B15//CARA//BR6OX2//ATBZIP42//ATHD2A//AtMYB45//AT3G49080//DMS3//MYB77//AtDWF4//BEH1//GATA18//ATEBP1//AT3G52440//ASML1//encodes the bi-functional orotate phosphoribosyltransferase/orotidine-5'-phosphate decarboxylase catalyzing the fifth and sixth step in the de novo pyrimidine ribonucleotide biosynthesis//ATPURM//AT3G56340//BHLH038//AtCBF5//AT3G57490//AT3G57940//AT3G58610//AT3G58660//AT3G59670//EMB3127//AtMYB55//AT4G02930//APR//AT4G04940//AT4G05400//ATNDK1//ATCPK4//AT4G12600//CYP83A1//ATGRP2//CYP702A2//ATHB-2//AT4G17390//HAT1//AT4G18440//SNI1//AT4G23620//AT4G24830//ATPAP24//ATFIB2//AR192//This gene is predicted to encode a protein with a DWD motif. It can bind to DDB1a in Y2H assays and may be involved in the formation of a CUL4-based E3 ubiquitin ligase//AT4G29410//AT4G30180//NFD1//AT4G31810//AtLa1//RSL2//AT4G35850//CYP84A1//AT4G36580//BEH2//AT4G37660//mtHsc70-1//AT5G02050//AT5G02870//SIR//ATNAS1//AT5G07090//AT5G08180//AtPPa6//AIL6//AT5G11240//ATWRKY75//TRA2//AtbZIP3//AtMYB56//WOX12//ATSPX1//ATHD2//PYRD//AT5G24840//AT5G25580//AT5G27330//ATWRKY74//OLI7//anac094//POLA3//ATS//AT5G42700//NF-YC13//AT5G47210//HDG7//ATFBR1//PTAC15//ATRBP45A//RPB5C//AT5G59240//COBL5//GR-RBP3//AT5G61880//AT5G64650//AT5G64670//AT5G67200"
GO:0006913	nucleocytoplasmic transport	BP	2.61164817639705e-08	AT1G03830//AT1G13730//AT1G15480//AT1G63660//AP40//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATL5//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G48650//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28
GO:0051169	nuclear transport	BP	2.61164817639705e-08	AT1G03830//AT1G13730//AT1G15480//AT1G63660//AP40//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATL5//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G48650//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//RPS28
GO:0006605	protein targeting	BP	2.99473513201477e-08	AT1G03830//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G28190//AT1G54770//TIM13//AT1G63660//AT1G79150//PPR596//AtSOT1//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//AOC3//CYP71B15//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AtPPa6//AT5G09840//AAC2//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G38890//ATPHB3//AT5G42150//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680
GO:1902580	single-organism cellular localization	BP	2.99473513201477e-08	AT1G03830//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G28190//AT1G54770//TIM13//AT1G63660//AT1G79150//PPR596//AtSOT1//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//AOC3//CYP71B15//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AtPPa6//AT5G09840//AAC2//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G38890//ATPHB3//AT5G42150//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680
GO:0016571	histone methylation	BP	4.2717847821523e-08	ATPRMT10//AT1G05440//ATPCNA1//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G05400//AT4G17390//SNI1//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//ATFBR1//GR-RBP3//AT5G67200
GO:0006606	protein import into nucleus	BP	9.09340935189452e-08	AT1G03830//AT1G15480//AT1G63660//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division."
GO:0044744	protein targeting to nucleus	BP	9.09340935189452e-08	AT1G03830//AT1G15480//AT1G63660//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division."
GO:1902593	single-organism nuclear import	BP	9.09340935189452e-08	AT1G03830//AT1G15480//AT1G63660//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division."
GO:0016570	histone modification	BP	9.5951158710921e-08	ATPRMT10//AT1G05440//ATPCNA1//AT1G10780//DECOY//AT1G23410//CYCB2;4//ATPRMT1A//ATPCNA2//AT2G38160//HTA8//AT2G39795//AT2G40660//AT3G02650//AT3G03920//AT3G03960//CYC2//AT3G13160//AT3G14190//AT3G16780//AT3G18600//DMS3//AT3G51280//AT3G55605//AT3G57000//AT4G02800//AT4G05400//AT4G17390//SNI1//ATFKBP53//RRP41L//AT4G29410//ATPRMT11//AT4G30800//NFD1//AT4G31810//AT4G35850//AT5G08180//AT5G13520//AT5G25580//POLA3//ATFBR1//GR-RBP3//AT5G67200
GO:0051170	nuclear import	BP	1.08234812696414e-07	AT1G03830//AT1G15480//AT1G63660//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division."
GO:0022622	root system development	BP	1.5225260479762e-07	RGF2//NRP2//ANAC009//AT1G34510//RACK1B//ATNUC-L1//PLT2//AtRHD6//ATBS1//NRP1//GAPCP-1//FLA6//LAX2//AT2G22230//ASL18//IAA20//ANAC054//RACK1C//PLT1//ATL5//IDL1//AT3G49960//MYB77//RHS13//ATHB-2//RPL16B//ATIRT1//AtG3Pp2//AT4G25790//ATXTH14//AT4G30320//RSL2//AtPLAIVA//ATBRI1//AIL6//ATWRKY75//AT5G13140//DGR2//ATPHB3//AT5G51310//FLA1//OLI2//RHS19
GO:0048364	root development	BP	1.5225260479762e-07	RGF2//NRP2//ANAC009//AT1G34510//RACK1B//ATNUC-L1//PLT2//AtRHD6//ATBS1//NRP1//GAPCP-1//FLA6//LAX2//AT2G22230//ASL18//IAA20//ANAC054//RACK1C//PLT1//ATL5//IDL1//AT3G49960//MYB77//RHS13//ATHB-2//RPL16B//ATIRT1//AtG3Pp2//AT4G25790//ATXTH14//AT4G30320//RSL2//AtPLAIVA//ATBRI1//AIL6//ATWRKY75//AT5G13140//DGR2//ATPHB3//AT5G51310//FLA1//OLI2//RHS19
GO:0034504	protein localization to nucleus	BP	1.52361789013356e-07	AT1G03830//AT1G15480//AT1G63660//AT1G79150//PPR596//EMA1//AT2G37990//AT3G03920//RPSAb//ATPRMT3//AT3G12340//AT3G12390//AT3G22660//ATEBP1//AT3G57940//AT4G04940//AT4G26600//NFD1//AtLa1//AT4G40000//AT5G09840//AT5G14580//TOZ//PYRD//AT5G27330//AT5G59240//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division."
GO:0006886	intracellular protein transport	BP	2.40023301797632e-07	AT1G03830//ATSYP111//AT1G14060//AT1G15420//AT1G15480//AT1G18850//AT1G26470//AT1G28190//AT1G54770//TIM13//AT1G63660//TOM7-2//AT1G79150//PPR596//AtSOT1//AtTic21//AT2G19385//TIM10//EMB2785//EMA1//AT2G37990//AT3G03920//RPSAb//AT3G07750//AT3G10780//ATPRMT3//AT3G12340//AT3G12390//TOM40//AT3G22660//HSP60//AOC3//CYP71B15//AT3G49320//ATEBP1//AT3G55605//AT3G57000//AT3G57940//AT4G04940//AT4G26600//AR192//NFD1//AtLa1//AT4G40000//TFL-1//AtmtOM64//AtPPa6//AT5G09840//AAC2//AT5G14580//AT5G15750//TOZ//PYRD//AT5G24840//AT5G27330//AT5G27395//AT5G38890//ATPHB3//AT5G42150//TIM8//AT5G59240//GR-RBP3//AT5G62290//Encodes a protein DOMINO1 that belongs to a plant-specific gene family sharing a common motif present in the tomato DEFECTIVE CHLOROPLASTS AND LEAVES (LeDCL) protein.  DOMINO1 is located in the nucleus.  Arabidopsis embryos carrying the domino1 mutation grow slowly in comparison with wild type embryos and reach only the globular stage at desiccation. The primary defect of the mutation at the cellular level is the large size of the nucleolus that can be observed soon after fertilization in the nuclei of both the embryo and the endosperm.  DOMINO1 might have a role in ribosome biogenesis and in determining the rate of cell division.//AT5G64680