The MdHSC70–MdWRKY75 module mediates basal apple thermotolerance by regulating the expression of heat shock factor genes

基础(医学) 热冲击系数 基因 细胞生物学 生物 热休克蛋白 表达式(计算机科学) 休克(循环) 基因表达 遗传学 计算机科学 生物技术 热休克蛋白70 内科学 医学 程序设计语言 胰岛素
作者
Zhijun Zhang,Chao Yang,Jing Xi,Yuting Wang,Guo Jing,Qianwei Liu,Yusong Liu,Yang Ma,J Zhang,Fengwang Ma,Chao Li
出处
期刊:The Plant Cell [Oxford University Press]
卷期号:36 (9): 3631-3653 被引量:44
标识
DOI:10.1093/plcell/koae171
摘要

Heat stress severely restricts the growth and fruit development of apple (Malus domestica). Little is known about the involvement of WRKY proteins in the heat tolerance mechanism in apple. In this study, we found that the apple transcription factor (TF) MdWRKY75 responds to heat and positively regulates basal thermotolerance. Apple plants that overexpressed MdWRKY75 were more tolerant to heat stress while silencing MdWRKY75 caused the opposite phenotype. RNA-seq and reverse transcription quantitative PCR showed that heat shock factor genes (MdHsfs) could be the potential targets of MdWRKY75. Electrophoretic mobility shift, yeast one-hybrid, β-glucuronidase, and dual-luciferase assays showed that MdWRKY75 can bind to the promoters of MdHsf4, MdHsfB2a, and MdHsfA1d and activate their expression. Apple plants that overexpressed MdHsf4, MdHsfB2a, and MdHsfA1d exhibited heat tolerance and rescued the heat-sensitive phenotype of MdWRKY75-Ri3. In addition, apple heat shock cognate 70 (MdHSC70) interacts with MdWRKY75, as shown by yeast two-hybrid, split luciferase, bimolecular fluorescence complementation, and pull-down assays. MdHSC70 acts as a negative regulator of the heat stress response. Apple plants that overexpressed MdHSC70 were sensitive to heat, while virus-induced gene silencing of MdHSC70 enhanced heat tolerance. Additional research showed that MdHSC70 exhibits heat sensitivity by interacting with MdWRKY75 and inhibiting MdHsfs expression. In summary, we proposed a mechanism for the response of apple to heat that is mediated by the "MdHSC70/MdWRKY75-MdHsfs" molecular module, which enhances our understanding of apple thermotolerance regulated by WRKY TFs.
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