SNAC3

| Categories genes  | Tags oxidative stress  drought  salinity  tolerance  transcription factor  oxidative  drought tolerance  salinity stress  stress  homeostasis  drought stress  abscisic acid  stress tolerance  stress response  reactive oxygen species 
  • Information
  • PSP score
    • LOC_Os01g09550.1: 0.9239
    • LOC_Os01g09550.4: 0.3576
    • LOC_Os01g09550.2: 0.905
    • LOC_Os01g09550.3: 0.709
  • PLAAC score
    • LOC_Os01g09550.1: 0
    • LOC_Os01g09550.4: 0
    • LOC_Os01g09550.2: 0
    • LOC_Os01g09550.3: 0
  • pLDDT score
    • NA
  • Publication

  • Genbank accession number

  • Key message
    • Overexpression (OE) of SNAC3 in rice resulted in enhanced tolerance to high temperature, drought, and oxidative stress caused by methyl viologen (MV), whereas suppression of SNAC3 by RNAi resulted in increased sensitivity to these stresses
    • A stress-responsive NAC transcription factor SNAC3 confers heat and drought tolerance through modulation of reactive oxygen species in rice.
    • Here, a stress-responsive NAC gene, SNAC3 (ONAC003, LOC_Os01g09550), conferring drought and heat tolerance in rice is reported
    • These results suggest that SNAC3 plays important roles in stress responses, and it is likely to be useful for engineering crops with improved tolerance to heat and drought stress
    • SNAC3 was ubiquitously expressed and its transcript level was induced by drought, high temperature, salinity stress, and abscisic acid (ABA) treatment
    • The SNAC3-OE transgenic plants exhibited significantly lower levels of H2O2, malondiadehyde (MDA), and relative electrolyte leakage than the wild-type control under heat stress conditions, implying that SNAC3 may confer stress tolerance by modulating reactive oxygen species (ROS) homeostasis
  • Connection

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