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Jasmonic acid enhances osmotic stress responses by <scp>MYC2</scp>‐mediated inhibition of <i>protein phosphatase 2C1</i> and <i>response regulators 26</i> transcription factor in tomato

Wenchao Zhao, Huang Huang, Jingjing Wang, Xiaoyun Wang, Bing-Qin Xu, Xuehui Yao, Lulu Sun, Rui Yang, Jianli Wang, Aidong Sun, Shaohui Wang

2022The Plant Journal63 citationsDOI

Abstract

SUMMARY The jasmonic acid (JA) signaling pathway is involved in the plant response to drought stress. JA and other hormones synergistically regulate the drought response in plants. However, the molecular mechanism underlying this synergism remains poorly defined. In the present study, transcriptome analyses of guard cells and quantitative PCR experiments revealed that MYC2 negatively regulated the negative regulator of ABA signaling, SlPP2C1 , and the type‐B response regulator in the cytokinin pathway, SlRR26 , and this negative regulation was direct. SlRR26 overexpression reduced drought tolerance in transgenic tomatoes, whereas slrr26 cr lines were more tolerant to drought. SlRR26 negatively modulated reactive oxygen species levels in stomata and stomatal closure through RobhB . Moreover, SlRR26 overexpression counteracted JA‐mediated stomatal closure, suggesting that SlRR26 played a negative role in the JA‐mediated drought response. These findings suggest that MYC2 plays a key role in JA‐regulated stomatal closure under drought stress by inhibiting SlPP2C1 and SlRR26 .

Topics & Concepts

Jasmonic acidTranscription factorOsmotic shockChemistryPhosphataseCell biologyAcid phosphataseBiochemistryBiologyEnzymeGeneInsect-Plant Interactions and ControlPlant Virus Research StudiesPlant Molecular Biology Research
Jasmonic acid enhances osmotic stress responses by <scp>MYC2</scp>‐mediated inhibition of <i>protein phosphatase 2C1</i> and <i>response regulators 26</i> transcription factor in tomato | Litcius