Index of genes with 1 constraints:

GO term parent-child relationships are used in this table.

Page 6 of 1134, showing 20 records out of 22678 total, starting on record 101, ending on 120

gene_id species description comment go evidence
AT5G09810 ath Member of Actin gene family.Mutants are defective in germination and root growth.;actin 7 transcript=eq;prot=eq; GO:0048767 IMP
AT5G09805 ath Similar to Inflorescence deficient in abscission (IDA). Involved in floral organ abscission.;inflorescence deficient in abscission (IDA)-like 3 transcript=eq;prot=eq; GO:0010227 IMP
AT1G53330 ath encodes a member of the pentatricopeptide repeat (PPR) gene family. T-DNA insertion mutants had a complex phenotypic expression, ranging from embryo lethal to seedling lethal, to just subtle changes.;Pentatricopeptide repeat (PPR) superfamily protein transcript=eq;prot=eq; GO:0048367 IMP
AT1G53330 ath encodes a member of the pentatricopeptide repeat (PPR) gene family. T-DNA insertion mutants had a complex phenotypic expression, ranging from embryo lethal to seedling lethal, to just subtle changes.;Pentatricopeptide repeat (PPR) superfamily protein transcript=eq;prot=eq; GO:0048364 IMP
AT1G53330 ath encodes a member of the pentatricopeptide repeat (PPR) gene family. T-DNA insertion mutants had a complex phenotypic expression, ranging from embryo lethal to seedling lethal, to just subtle changes.;Pentatricopeptide repeat (PPR) superfamily protein transcript=eq;prot=eq; GO:0010154 IMP
AT1G53330 ath encodes a member of the pentatricopeptide repeat (PPR) gene family. T-DNA insertion mutants had a complex phenotypic expression, ranging from embryo lethal to seedling lethal, to just subtle changes.;Pentatricopeptide repeat (PPR) superfamily protein transcript=eq;prot=eq; GO:0009790 IMP
AT2G27100 ath Identified as a leaf form mutant by Redei having serrated leaves. Further analysis of the single loss of function allele indicated pleiotropic effects extending to many aspects of shoot development such as taller meristems, alterations in phase transition, phyllotaxy and branching. Encodes a single zinc finger containing protein that is expressed in meristems and organ primordia.;C2H2 zinc-finger protein SERRATE (SE) transcript=eq;prot=eq; GO:0048509 IMP
AT2G27100 ath Identified as a leaf form mutant by Redei having serrated leaves. Further analysis of the single loss of function allele indicated pleiotropic effects extending to many aspects of shoot development such as taller meristems, alterations in phase transition, phyllotaxy and branching. Encodes a single zinc finger containing protein that is expressed in meristems and organ primordia.;C2H2 zinc-finger protein SERRATE (SE) transcript=eq;prot=eq; GO:0048367 IMP
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0048366 IMP
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0010160 IGI
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0010223 IMP
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0048504 IMP
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0007275 ISS
AT5G53950 ath Transcriptional activator of the NAC gene family, with CUC1 redundantly required for embryonic apical meristem formation, cotyledon separation and expression of STM. Proper timing of CUC2 expression is required to maintain the phyllotactic pattern initiated in the meristem. CUC2 expression in leaf sinus region is required for serration and the extent of serration is modulated by mir164A mediated repression of CUC2.;NAC (No Apical Meristem) domain transcriptional regulator superfamily protein transcript=eq;prot=eq; GO:0010072 IGI
AT2G38280 ath Encodes a protein with in vitro AMP deaminase activity that is involved in embryogenesis. Homozygous mutant embryos fail to develop past the zygote stage.;AMP deaminase, putative / myoadenylate deaminase, putative transcript=eq;prot=eq; GO:0009793 IMP
AT1G13300 ath Overexpression confers hypersensitivity to low phosphate-elicited inhibition of primary root growth.;myb-like transcription factor family protein transcript=eq;prot=eq; GO:0080022 IMP
AT5G13790 ath AGL15 (AGAMOUS-Like 15) is a member of the MADS domain family of regulatory factors. Although AGL15 is preferentially expressed during embryogenesis, AGL15 is also expressed in leaf primordia, shoot apical meristems and young floral buds, suggesting that AGL15 may play a role during post-germinative development. Transgenic plants that ectopically express AGL15 show delays in the transition to flowering, perianth abscission and senescence and fruit and seed maturation. Role in embryogenesis and gibberellic acid catabolism. Targets B3 domain transcription factors that are key regulators of embryogenesis.;AGAMOUS-like 15 transcript=eq;prot=eq; GO:0009793 IDA
AT1G13400 ath Along with JAG, it is involved in stamen and carpel development. Expression is limited to the adaxial side of lateral organs. Activated by AGAMOUS in a cal-1, ap1-1 background.;C2H2 and C2HC zinc fingers superfamily protein transcript=eq;prot=eq; GO:0048443 IGI
AT1G13400 ath Along with JAG, it is involved in stamen and carpel development. Expression is limited to the adaxial side of lateral organs. Activated by AGAMOUS in a cal-1, ap1-1 background.;C2H2 and C2HC zinc fingers superfamily protein transcript=eq;prot=eq; GO:0048440 IGI
AT1G13400 ath Along with JAG, it is involved in stamen and carpel development. Expression is limited to the adaxial side of lateral organs. Activated by AGAMOUS in a cal-1, ap1-1 background.;C2H2 and C2HC zinc fingers superfamily protein transcript=eq;prot=eq; GO:0048653 IGI
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