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Calcium‐dependent protein kinase <scp>PpCDPK29</scp>‐mediated Ca<sup>2+</sup>‐<scp>ROS</scp> signal and <scp>PpHSFA2a</scp> phosphorylation regulate postharvest chilling tolerance of peach fruit

Liangyi Zhao, Hua Wang, Yaqin Zhao, Yinqiu Bao, Yuanyuan Hou, Yu Liu, Zhengguo Wu, Mondher Bouzayen, Yonghua Zheng, Peng Jin

2025Plant Biotechnology Journal26 citationsDOIOpen Access PDF

Abstract

Summary Green and chemical‐free hot water (HW) treatment can effectively reduce the chilling injury of peach fruit; however, the mechanism of inducing chilling resistance by heat treatment is still unclear. This study found that HW treatment could activate reactive oxygen species (ROS) signalling, forming ROS‐Ca 2+ signalling. Furthermore, we identified a peach Ca 2+ sensor, calcium‐dependent protein kinase 29 (PpCDPK29), as a positive regulator of postharvest chilling resistance. PpCDPK29 interacted with ROS‐generating proteins (PpRBOHC/D) and antioxidant enzymes (PpSOD and PpCAT1) to jointly maintain ROS homeostasis. Meanwhile, we found that PpHSFA2a was phosphorylated by PpCDPK29 and transferred to the nucleus, which enhanced the binding ability of PpHSFA2a to the target genes. Here, PpHSFA2a activated the transcription of target genes PpHSP18.5 , PpHSP70 , PpGSTU7 , PpGSTU19 , PpGolS1 and PpBAM1 , acted as molecular chaperones, improved ROS scavenging and enhanced osmoregulation to alleviate postharvest chilling injury of peach fruit. In summary, HW treatment could alleviate postharvest chilling injury in peach fruit by activating the PpCDPK29‐mediated Ca 2+ ‐ROS and HSF‐HSP signalling pathways, providing a novel signalling network for postharvest quality control of peach fruit.

Topics & Concepts

PostharvestPhosphorylationCalciumBiologyCell biologyBiochemistryBotanyChemistryOrganic chemistryPostharvest Quality and Shelf Life ManagementPlant Stress Responses and TolerancePlant Physiology and Cultivation Studies