Integrated Proteomics and Transcriptomics Analyses Reveals the Possible Antifungal Mechanism of an Indoloquinoline Alkaloid Neocryptolepine against Rhizoctonia solani

茄丝核菌 行动方式 菌丝体 生物 作用机理 抗真菌 蛋白质亚单位 线粒体呼吸链 蛋白质组学 呼吸链 微生物学 生物化学 转录组 基因 线粒体 植物 基因表达 体外
作者
Xiaofei Shang,Lixia Dai,Zhijun Zhang,Cheng‐Jie Yang,Shasha Du,Tian‐Lin Wu,Ying‐Hui He,Jia-Kai Zhu,Ying‐Qian Liu,Yin-Fang Yan,Xiaolou Miao,Jiyu Zhang
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:69 (23): 6455-6464 被引量:21
标识
DOI:10.1021/acs.jafc.1c01385
摘要

Rhizoctonia solani causes serious plant diseases. Neocryptolepine presented the significant antifungal activity against R. solani, however the mode of action is unclear. In this paper, we investigated the potential mode of action of neocryptolepine against R. solani integrated the proteomics and transcriptomics. Results showed that after treatment with neocryptolepine, 1012 differentially expressed proteins and 10 920 differentially expressed genes of R. solani were found, most of them were enriched in mitochondrial respiratory chain. It affected oxidative phosphorylation led to the enrichment of ROS and the decrease of MMP, and inhibited complex III activity with the inhibition rate of 63.51% at 10 μg/mL. The mitochondrial structural and function were damaged. Cytochrome b-c1 complex subunit Rieske (UQCRFS1) with the high binding score to neocryptolepine was found as a potential target. In addition, it inhibited the sclerotia formation and presented antifungal efficacy by decreasing the diameter of a wound in potato in a concentration-dependent manner. Above results indicated that neocryptolepine inhibited the complex III activity by binding UQCRFS1 and blocked the ion transfer to cause the death of R. solani mycelia. This study laid the foundation for the future development of neocryptolepine as an alternative biofungicide.
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