OsCYP51G3

| Categories genes  | Tags leaf  pollen  development  salt  salt stress  dwarf  stress  breeding  BR  erect  quality 
  • Information
  • PSP score
    • LOC_Os05g12040.1: 0.2462
  • PLAAC score
    • LOC_Os05g12040.1: 0
  • pLDDT score
    • 88.69
  • Protein Structure from AlphaFold and UniProt
    • image
  • Publication
  • Genbank accession number

  • Key message
    • osa-miR1848 and OsCYP51G3 might have potential applications in rice breeding to modulate leaf angle, and the size and quality of seeds
    • Increased osa-miR1848 and decreased OsCYP51G3 expression reduced phytosterol and BR concentrations, and caused typical phenotypic changes related to phytosterol and BR deficiency, including dwarf plants, erect leaves, semi-sterile pollen grains, and shorter cells
    • Rice microRNA osa-miR1848 targets the obtusifoliol 14α-demethylase gene OsCYP51G3 and mediates the biosynthesis of phytosterols and brassinosteroids during development and in response to stress.
    • Circadian expression of osa-miR1848 regulated the diurnal abundance of OsCYP51G3 transcript in developing organs, and the response of OsCYP51G3 to salt stress
    • osa-miR1848 directs OsCYP51G3 mRNA cleavage to regulate phytosterol and BR biosynthesis in rice
    • We propose that osa-miR1848 regulates OsCYP51G3 expression posttranscriptionally, and mediates phytosterol and BR biosynthesis
  • Connection

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