FUS3 Antibody

1. AIP2 targets FUS3 for degradation and plays a role in cotyledon development and flowering time in Arabidopsis. PMID: 28369580
2. FUS3 phosphorylation and SnRK1 are required for embryogenesis and integration of environmental cues to ensure the survival of the progeny. PMID: 28922765
3. LEAFY COTYLEDON2 (LEC2) was identified as an interacting factor of FUS3, and demonstrated that these two homologous B3 transcription factors interact to bind to the auxin biosynthesis gene YUCCA4 (YUC4) and synergistically activate its transcription during lateral roots formation. PMID: 27878992
4. TT2 is directly bound to the regulatory region of FUSCA3, and mediates the expression of numerous genes in the fatty acid biosynthesis pathway. PMID: 24397827
5. Examination of direct targets of FUS3 reveals that FUS3 acts primarily or exclusively as a transcriptional activator. PMID: 23314941
6. Activation of FUS3 after germination dampens the expression of genes involved in the biosynthesis and response to the plant hormone ethylene, whereas a loss-of-function fus3 mutant shows many phenotypes consistent with increased ethylene signaling. PMID: 22348746
7. FUS3 contributes to the delay of seed germination at high temperature. PMID: 22279962
8. The genes positively controlled by FUS3 are not confined to previously known seed maturation-related genes and include those involved in the production of secondary metabolites and those involved in primary metabolism. PMID: 21045071
9. The C-terminal domain is required for normal FUS3 function and sensitivity to abscisic acid and gibberellic acid, and negatively regulates mRNA and protein levels. PMID: 20663088
10. In this study, it was shown that gibberellin (GA) hormone biosynthesis is regulated by LEC2 and FUS3 pathways. PMID: 15516508
11. At2S3 activation by FUS3 was rapid but CRC induction by FUS3 with abscissic acid[ABA] and by ABA followed by presence of FUS3 took longer, suggesting involvement of an indirect mechanism requiring the synthesis of intermediate regulatory factor(s) PMID: 15695463
12. Total repression of embryogenic potential was observed in double (lec1 lec2, lec1 fus3, lec2 fus3) and triple (fus3 lec1 lec2) mutants. PMID: 16034595
13. Results show that Significant differences in histone modifications at the phas promoter were mediated by FUS3 and PvALF, suggesting that they function through different epigenetic mechanisms. PMID: 18038114
14. FUS3 function is restricted to the acquisition of embryo-dependent seed dormancy, the determination of cotyledonary cell identity, and the synthesis and accumulation of storage compounds. PMID: 18343361

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KEGG: ath:AT3G26790

STRING: 3702.AT3G26790.1

UniGene: At.6029