CHR729,OsCHD3,CRL6

2022-11-15 | Categories genes  | Tags seedling  development  gibberellin  R protein  Gibberellin  stem  root  map-based cloning  crown root development  root development  crown  crown root 

• Information
  • Symbol: CHR729,OsCHD3,CRL6
  • MSU: LOC_Os07g31450
  • RAPdb: Os07g0497100,Os07g0497000
• PSP score
  • LOC_Os07g31450.1: 0.6046
• PLAAC score
  • LOC_Os07g31450.1: 0
• pLDDT score
  • NA
• Publication
  • CHD3 protein recognizes and regulates methylated histone H3 lysines 4 and 27 over a subset of targets in the rice genome, 2012, Proc Natl Acad Sci U S A.
  • CHR729 Is a CHD3 Protein That Controls Seedling Development in Rice., 2015, PLoS One.
  • CRL6, a member of the CHD protein family, is required for crown root development in rice, 2016, Plant Physiology and Biochemistry.
  • CRL6, a member of the CHD protein family, is required for crown root development in rice., 2016, Plant Physiol Biochem.
• Genbank accession number
  • AK103233
• Key message
  • CHR729 Is a CHD3 Protein That Controls Seedling Development in Rice.
  • These results suggest that the rice CHD3 protein CHR729 plays an important role in many aspects of seedling development and controls this development via the gibberellin pathway
  • CHR729 encoded a nuclear protein and was expressed in almost all organs
  • Realtime RT-PCR analysis showed that CRL6 was most highly expressed in the stem base region where crown roots initiated
  • Histological analysis showed that CRL6 influences crown root formation by regulating primordial initiation and development
  • Our results provide evidence that CRL6 plays an important role in crown root development in rice via auxin-related signaling pathway
  • In addition, auxin-action inhibited phenotype was observed during crl6 development
  • Map-based cloning and subsequent complementation tests verified that the CRL6 gene encodes a member of the large chromodomain, helicase/ATPase, and DNA-binding domain (CHD) family protein
• Connection
  • CHR729~OsCHD3~CRL6, OsCLF~SDG711, Histone H3K4me3 and H3K27me3 regulatory genes control stable transmission of an epimutation in rice., Here we show that maintenance of a stably hypomethylated active epiallele in rice required a CHD3 protein (CHR729) and that over-expression of an H3K4me3 demethylase (JMJ703) or H3K27me3 methyltransferase (SDG711) could stably resilence the epiallele

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