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Broad-spectrum chemicals block ROS detoxification to prevent plant fungal invasion

生物 戒毒(替代医学) 毒力 活性氧 灰葡萄孢菌 分泌物 杀菌剂 过氧化物酶 病菌 微生物学 细胞生物学 生物化学 植物 基因 医学 病理 替代医学
作者
Qiwen Yang,Jinguang Yang,Yameng Wang,Juan Du,Jianan Zhang,Ben F. Luisi,Wenxing Liang
出处
期刊:Current Biology [Elsevier BV]
卷期号:32 (18): 3886-3897.e6 被引量:10
标识
DOI:10.1016/j.cub.2022.07.022
摘要

Plant diseases cause a huge impact on food security and are of global concern. While application of agrochemicals is a common approach in the control of plant diseases currently, growing drug resistance and the impact of off-target effects of these compounds pose major challenges. The identification of pathogenicity-related virulence mechanisms and development of new chemicals that target these processes are urgently needed. One such virulence mechanism is the detoxification of reactive oxygen species (ROS) generated by host plants upon attack by pathogens. The machinery of ROS detoxification might therefore serve as a drug target for preventing plant diseases, but few anti-ROS-scavenging drugs have been developed. Here, we show that in the model system Botrytis cinerea secretion of the cytochrome c-peroxidase, BcCcp1 removes plant-produced H2O2 and promotes pathogen invasion. The peroxidase secretion is modulated by a Tom1-like protein, BcTol1, through physical interaction. We show that BcTol1 is regulated at different levels to enhance the secretion of BcCcp1 during the early infection stage. Inactivation of either BcTol1 or BcCcp1 leads to dramatically reduced virulence of B. cinerea. We identify two BcTol1-targeting small molecules that not only prevent B. cinerea invasion but also have effective activity against a wide range of plant fungal pathogens without detectable effect on the hosts. These findings reveal a conserved mechanism of ROS detoxification in fungi and provide a class of potential fungicides to control diverse plant diseases. The approach described here has wide implications for further drug discovery in related fields.

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