灰葡萄孢菌
茉莉酸
表观遗传学
DNA甲基化
抗性(生态学)
信号通路
植物抗病性
信号
基因
葡萄球菌炎
基因表达调控
生物
甲基化
植物对草食的防御
植物病害
细胞生物学
基因表达
遗传学
生物逆境
DNA
DNA损伤
信号转导
病菌
水杨酸
后生
防御机制
作者
Mannan Zhang,Hongyu Han,Yani Li,Menghan Zhang,Jiajie Lian,Mengshuang Geng,Jiuhai Zhao,Qian Chen,Huawei Zhai,Xianwen Meng,Chuanyou Li
摘要
The fungal pathogen Botrytis cinerea (B. cinerea) is highly destructive and threatens tomato production and shelf life. While plant defence mechanisms against B. cinerea are well-studied, its epigenetic regulation remains largely unknown. DRM2-mediated de novo DNA methylation plays pivotal roles in plant development and stress adaptation, yet its contribution to tomato resistance against fungal pathogens remains largely unclear. In this study, we show that tomato with lower global DNA methylation levels exhibit stronger resistance to B. cinerea, revealing a key contribution of epigenetic regulation to plant immunity. To determine the role of DRM2 in tomato defence against B. cinerea, we conducted an integrative multi-omics analysis. Further investigation revealed that overexpression of DRM2 promoted jasmonic acid (JA) accumulation and activated the JA-mediated signalling pathway, thereby enhancing tomato resistance to B. cinerea. Particularly, DRM2 was shown to bind the promoter of AOS, a key gene in JA biosynthesis, modulating its epigenetic state. Overall, this study uncovers the epigenetic mechanisms governing plant defence against B. cinerea and identifies a promising candidate gene for breeding tomatoes with enhanced disease resistance.
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