Affiliation:
1. State Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple College of Horticulture Northwest A&F University Yangling Shaanxi 712100 China
2. Ningxia Engineering and Technology Research Center of Grape and Wine Ningxia University Yinchuan 750021 Ningxia China
Abstract
SUMMARYApple (Malus domestica) trees are vulnerable to freezing temperatures. Cold resistance in woody perennial plants can be improved through biotechnological approaches. However, genetic engineering requires a thorough understanding of the molecular mechanisms of the tree's response to cold. In this study, we demonstrated that the Mdm‐miR160–MdARF17–MdWRKY33 module is crucial for apple freezing tolerance. Mdm‐miR160 plays a negative role in apple freezing tolerance, whereas MdARF17, one of the targets of Mdm‐miR160, is a positive regulator of apple freezing tolerance. RNA sequencing analysis revealed that in apple, MdARF17 mediates the cold response by influencing the expression of cold‐responsive genes. EMSA and ChIP‐qPCR assays demonstrated that MdARF17 can bind to the promoter of MdWRKY33 and promotes its expression. Overexpression of MdWRKY33 enhanced the cold tolerance of the apple calli. In addition, we found that the Mdm‐miR160–MdARF17–MdWRKY33 module regulates cold tolerance in apple by regulating reactive oxygen species (ROS) scavenging, as revealed by (i) increased H2O2 levels and decreased peroxidase (POD) and catalase (CAT) activities in Mdm‐miR160e OE plants and MdARF17 RNAi plants and (ii) decreased H2O2 levels and increased POD and CAT activities in MdmARF17 OE plants and MdWRKY33 OE calli. Taken together, our study uncovered the molecular roles of the Mdm‐miR160–MdARF17–MdWRKY33 module in freezing tolerance in apple, thus providing support for breeding of cold‐tolerant apple cultivars.
Funder
National Natural Science Foundation of China
Subject
Cell Biology,Plant Science,Genetics
Cited by
7 articles.
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