Disease-Resistance Functional Analysis and Screening of Interacting Proteins of ZmCpn60-3, a Chaperonin 60 Protein from Maize.

IF 4 2区生物学 Q1 PLANT SCIENCES

Plants-Basel Pub Date : 2025-06-30 DOI:10.3390/plants14131993

Bo Su, Lixue Mao, Huiping Wu, Xinru Yu, Chongyu Bian, Shanshan Xie, Temoor Ahmed, Hubiao Jiang, Ting Ding

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Abstract

Chaperonin 60 proteins plays an important role in plant growth and development as well as the response to abiotic stress. As part of the protein homeostasis system, molecular chaperones have attracted increasing attention in recent years due to their involvement in the folding and assembly of key proteins in photosynthesis. However, little is known about the function of maize chaperonin 60 protein. In the study, a gene encoding the chaperonin 60 proteins was cloned from the maize inbred line B73, and named ZmCpn60-3. The gene was 1, 818 bp in length and encoded a protein consisting of 605 amino acids. Phylogenetic analysis showed that ZmCpn60-3 had high similarity with OsCPN60-1, belonging to the β subunits of the chloroplast chaperonin 60 protein family, and it was predicted to be localized in chloroplasts. The ZmCpn60-3 was highly expressed in the stems and tassels of maize, and could be induced by exogenous plant hormones, mycotoxins, and pathogens; Overexpression of ZmCpn60-3 in Arabidopsis improved the resistance to Pst DC3000 by inducing the hypersensitive response and the expression of SA signaling-related genes, and the H₂O₂ and the SA contents of ZmCpn60-3-overexpressing Arabidopsis infected with Pst DC3000 accumulated significantly when compared to the wild-type controls. Experimental data demonstrate that flg22 treatment significantly upregulated transcriptional levels of the PR1 defense gene in ZmCpn60-3-transfected maize protoplasts. Notably, the enhanced resistance phenotype against Pseudomonas syringae pv. tomato DC3000 (Pst DC3000) in ZmCpn60-3-overexpressing transgenic lines was specifically abolished by pretreatment with ABT, a salicylic acid (SA) biosynthetic inhibitor. Our integrated findings reveal that this chaperonin protein orchestrates plant immune responses through a dual mechanism: triggering a reactive oxygen species (ROS) burst while simultaneously activating SA-mediated signaling cascades, thereby synergistically enhancing host disease resistance. Additionally, yeast two-hybrid assay preliminary data indicated that ZmCpn60-3 might bind to ZmbHLH118 and ZmBURP7, indicating ZmCpn60-3 might be involved in plant abiotic responses. The results provided a reference for comprehensively understanding the resistance mechanism of ZmCpn60-3 in plant responses to abiotic or biotic stress.

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玉米伴侣蛋白60蛋白ZmCpn60-3的抗病功能分析及互作蛋白的筛选

伴侣蛋白60在植物的生长发育和对非生物胁迫的响应中起着重要的作用。分子伴侣作为蛋白质稳态系统的一部分，由于其参与光合作用中关键蛋白质的折叠和组装，近年来受到越来越多的关注。然而，人们对玉米伴侣蛋白60的功能知之甚少。本研究从玉米自交系B73中克隆了一个编码伴侣蛋白60的基因，并命名为ZmCpn60-3。该基因全长1818bp，编码一种由605个氨基酸组成的蛋白质。系统发育分析表明，ZmCpn60-3与OsCPN60-1具有较高的相似性，属于叶绿体伴侣蛋白60家族的β亚基，预测其定位于叶绿体中。ZmCpn60-3在玉米茎部和穗部高表达，可受外源植物激素、真菌毒素和病原菌诱导；ZmCpn60-3在拟南芥中过表达，通过诱导过敏反应和SA信号相关基因的表达，提高了对Pst DC3000的抗性，并且与野生型对照相比，过表达ZmCpn60-3的拟南芥感染Pst DC3000后H2O2和SA含量显著积累。实验数据表明，flg22处理显著上调了zmcpn60 -3转染的玉米原生质体中PR1防御基因的转录水平。值得注意的是，对丁香假单胞菌的抗性表型增强。通过水杨酸（SA）生物合成抑制剂ABT预处理，特异性地消除了zmcpn60 -3过表达转基因株系中的Pst DC3000 （Pst DC3000）。我们的综合研究结果表明，这种伴侣蛋白通过双重机制协调植物的免疫反应：触发活性氧（ROS）爆发，同时激活sa介导的信号级联，从而协同增强宿主的抗病能力。此外，酵母双杂交实验初步数据表明，ZmCpn60-3可能与ZmbHLH118和ZmBURP7结合，表明ZmCpn60-3可能参与植物的非生物反应。研究结果为全面了解ZmCpn60-3在植物对非生物或生物胁迫的抗性机制提供了参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Plants-Basel Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

6.50

自引率

11.10%

发文量

2923

审稿时长

15.4 days

期刊介绍： Plants (ISSN 2223-7747), is an international and multidisciplinary scientific open access journal that covers all key areas of plant science. It publishes review articles, regular research articles, communications, and short notes in the fields of structural, functional and experimental botany. In addition to fundamental disciplines such as morphology, systematics, physiology and ecology of plants, the journal welcomes all types of articles in the field of applied plant science.