Association of the tomato co-chaperone gene Sldnaj harboring a promoter deletion with susceptibility to Tomato spotted wilt virus (TSWV)

IF 8.7 1区农林科学 Q1 Agricultural and Biological Sciences

Horticulture Research Pub Date : 2025-01-15 DOI:10.1093/hr/uhaf019

Shiming Qi, Liangzhe Meng, Qianqi Lou, Yushun Li, Yuanbo Shen, Shijie Zhang, Xinyu Wang, Pan Zhao, Jin Wang, Bo Wang, Xiubin Chen, Chunmei Zhang, Yu Du, Jiantao Zhao, Xiangqiang Zhan, Yan Liang

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Abstract

Tomato spotted wilt virus (TSWV) poses a significant threat as a devastating pathogen to the global production and quality of tomato (Solanum lycopersicum). Mining novel resistance genes within the tomato germplasm is an effective and environmentally friendly approach to combat TSWV. In this study, we investigated the mechanisms underlying high TSWV resistance in a specific tomato line after experimental inoculation, despite not possessing any known TSWV resistance genes. The candidate causal genes of disease resistance traits were finely mapped by constructing different genetic populations and performing bulk segregant analysis sequencing. This approach identified SlDnaJ (Solyc10g081220) as a key locus potentially regulating TSWV resistance. We determined a structural variant of SlDnaJ (designated Sldnaj) containing a 61-bp promoter sequence deletion that was specifically present in the germplasm of the susceptible M82 tomato plant lines. Sldnaj-knockout transgenic plants were significantly more resistant to TSWV than wild-type plants. Up-regulated expression of Sldnaj affected the salicylic acid/jasmonic acid signaling pathway, which induced and promoted the systemic infection of TSWV in M82 susceptible plants. In summary, this study identified a new candidate TSWV susceptibility gene with a natural deletion variation in tomato. These findings provide insights into the molecular mechanism underlying pathogen resistance while offering a target for breeding strategies of tomato with TSWV resistance.

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启动子缺失的番茄协同伴侣基因Sldnaj与番茄斑点枯萎病毒易感性的关联

番茄斑点枯萎病毒（TSWV）作为一种毁灭性的病原菌，对全球番茄的生产和质量构成了重大威胁。在番茄种质资源中挖掘新的抗性基因是一种有效的、环境友好的方法。在这项研究中，我们研究了实验接种后特定番茄品系对TSWV高抗性的机制，尽管该品系没有任何已知的TSWV抗性基因。通过构建不同的遗传群体并进行整体分离分析测序，精细定位了抗病性状的候选致病基因。该方法发现SlDnaJ （Solyc10g081220）是潜在调节TSWV抗性的关键位点。我们确定了SlDnaJ的结构变异（命名为SlDnaJ），其中包含61-bp的启动子序列缺失，特异性存在于M82番茄易感株系的种质中。sldnaj基因敲除转基因植株对TSWV的抗性显著高于野生型植株。Sldnaj的上调表达影响水杨酸/茉莉酸信号通路，诱导和促进M82易感植株对TSWV的全身侵染。综上所述，本研究在番茄中发现了一个具有自然缺失变异的新的候选TSWV易感基因。这些发现为深入了解病原菌抗性的分子机制提供了依据，同时也为番茄抗TSWV育种策略提供了靶点。

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

Horticulture Research Biochemistry, Genetics and Molecular Biology-Biochemistry

CiteScore

11.20

自引率

6.90%

发文量

367

审稿时长

20 weeks

期刊介绍： Horticulture Research, an open access journal affiliated with Nanjing Agricultural University, has achieved the prestigious ranking of number one in the Horticulture category of the Journal Citation Reports ™ from Clarivate, 2022. As a leading publication in the field, the journal is dedicated to disseminating original research articles, comprehensive reviews, insightful perspectives, thought-provoking comments, and valuable correspondence articles and letters to the editor. Its scope encompasses all vital aspects of horticultural plants and disciplines, such as biotechnology, breeding, cellular and molecular biology, evolution, genetics, inter-species interactions, physiology, and the origination and domestication of crops.