JrPHL8-JrWRKY4-JrSTH2L Module Regulates Resistance to in Walnut

Overview

Journal Hortic Res

Publisher Oxford University Press

Date 2024 Jul 11

PMID 38988616

Authors

Yutian Mu

Yuhui Dong

Xichen Li

Andi Gong

Haiyi Yu

Changxi Wang

Jianning Liu

Qiang Liang

Keqiang Yang

Hongcheng Fang

Affiliations

Soon will be listed here.

Abstract

Walnut anthracnose () reduces walnut yield and quality and seriously threatens the healthy development of the walnut industry. WRKY transcription factors (TFs) are crucial regulatory factors involved in plant-pathogen interactions. Our previous transcriptome analysis results indicate that JrWRKY4 responds to infection by , but its specific regulatory network and disease resistance mechanism are still unclear. Herein, the characteristics of JrWRKY4 as a transcription activator located in the nucleus were first identified. Gain-of-function and loss-of-function analyses showed that JrWRKY4 could enhance walnut resistance against . A series of molecular experiments showed that JrWRKY4 directly interacted with the promoter region of and positively regulated its expression. In addition, JrWRKY4 interacted with JrVQ4 to form the protein complex, which inhibited JrWRKY4 for the activation of JrSTH2L. Notably, a MYB TF JrPHL8 interacting with the promoter has also been identified, which directly bound to the MBS element in the promoter of and induced its activity. Our study elucidated a novel mechanism of the JrPHL8-JrWRKY4-JrSTH2L in regulating walnut resistance to anthracnose. This mechanism improves our understanding of the molecular mechanism of WRKY TF mediated resistance to anthracnose in walnut, which provides new insights for molecular breeding of disease-resistant walnuts in the future.

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