Author
Listed:
- Beimi Cui
(Jiangsu Normal University
Jiangsu Normal University
University of Edinburgh)
- Qiaona Pan
(Jiangsu Normal University
Jiangsu Normal University
University of Edinburgh)
- David Clarke
(University of Edinburgh)
- Marisol Ochoa Villarreal
(University of Edinburgh)
- Saima Umbreen
(University of Edinburgh)
- Bo Yuan
(Jiangsu Normal University
Jiangsu Normal University)
- Weixing Shan
(Northwest A&F University)
- Jihong Jiang
(Jiangsu Normal University
Jiangsu Normal University)
- Gary J. Loake
(Jiangsu Normal University
University of Edinburgh)
Abstract
Nitric oxide (NO) orchestrates a plethora of incongruent plant immune responses, including the reprograming of global gene expression. However, the cognate molecular mechanisms remain largely unknown. Here we show a zinc finger transcription factor (ZF-TF), SRG1, is a central target of NO bioactivity during plant immunity, where it functions as a positive regulator. NO accumulation promotes SRG1 expression and subsequently SRG1 occupies a repeated canonical sequence within target promoters. An EAR domain enables SRG1 to recruit the corepressor TOPLESS, suppressing target gene expression. Sustained NO synthesis drives SRG1 S-nitrosylation predominantly at Cys87, relieving both SRG1 DNA binding and transcriptional repression activity. Accordingly, mutation of Cys87 compromises NO-mediated control of SRG1-dependent transcriptional suppression. Thus, the SRG1-SNO formation may contribute to a negative feedback loop that attenuates the plant immune response. SRG1 Cys87 is evolutionary conserved and thus may be a target for redox regulation of ZF-TF function across phylogenetic kingdoms.
Suggested Citation
Beimi Cui & Qiaona Pan & David Clarke & Marisol Ochoa Villarreal & Saima Umbreen & Bo Yuan & Weixing Shan & Jihong Jiang & Gary J. Loake, 2018.
"S-nitrosylation of the zinc finger protein SRG1 regulates plant immunity,"
Nature Communications, Nature, vol. 9(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06578-3
DOI: 10.1038/s41467-018-06578-3
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