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The ABI4-RGL2 module serves as a double agent to mediate the antagonistic crosstalk between ABA and GA signals.

Baoshan XianMuhammad Saad RehmaniYueni FanXiaofeng LuoRanran ZhangJiahui XuShaowei WeiLei WangJuan HeAigen FuKai Shu
Published in: The New phytologist (2024)
Abscisic acid (ABA) and gibberellins (GA) antagonistically mediate several biological processes, including seed germination, but the molecular mechanisms underlying ABA/GA antagonism need further investigation, particularly any role mediated by a transcription factors module. Here, we report that the DELLA protein RGL2, a repressor of GA signaling, specifically interacts with ABI4, an ABA signaling enhancer, to act as a transcription factor complex to mediate ABA/GA antagonism. The rgl2, abi3, abi4 and abi5 mutants rescue the non-germination phenotype of the ga1-t. Further, we demonstrate that RGL2 specifically interacts with ABI4 to form a heterodimer. RGL2 and ABI4 stabilize one another, and GA increases the ABI4-RGL2 module turnover, whereas ABA decreases it. At the transcriptional level, ABI4 enhances the RGL2 expression by directly binding to its promoter via the CCAC cis-element, and RGL2 significantly upregulates the transcriptional activation ability of ABI4 toward its target genes, including ABI5 and RGL2. Abscisic acid promotes whereas GA inhibits the ability of ABI4-RGL2 module to activate transcription, and ultimately ABA and GA antagonize each other. Genetic analysis demonstrated that both ABI4 and RGL2 are essential for the activity of this transcription factor module. These results suggest that the ABI4-RGL2 module mediates ABA/GA antagonism by functioning as a double agent.
Keyphrases
  • transcription factor
  • pet ct
  • dna binding
  • genome wide identification
  • gene expression
  • arabidopsis thaliana
  • binding protein
  • oxidative stress
  • genome wide
  • bone mineral density
  • amino acid
  • heat stress