Transcriptome profiling uncovers the involvement of CmXyn1, a glycosyl hydrolase 11, in Cochliobolus miyabeanus pathogenicity

IF 2.3 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY Applied Biological Chemistry Pub Date : 2023-05-18 DOI:10.1186/s13765-023-00789-z
Gi Hyun Lee, Ju Soon Yoo, Ha-Ram Oh, Cheol Woo Min, Jeong Woo Jang, Soumya Mukherjee, Ki-Hong Jung, Yu-Jin Kim, Yiming Wang, Ravi Gupta, Sun Tae Kim
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引用次数: 1

Abstract

Necrotrophic pathogen Cochliobolus miyabeanus (C. miyabeanus) causes rice brown leaf spot disease and drastically affects the yield and quality of rice grains. However, the molecular mechanism of rice-C. miyabeanus remains poorly understood due to the limited research conducted on this pathosystem. To elucidate the molecular mechanism of rice-C. miyabeanus, a transcriptome analysis was conducted from in vitro and in planta grown C. miyabeanus. This analysis led to the identification of a total of 24,060 genes of which 426 in vitro and 57 in planta expressed genes were predicted to encode for secretory proteins. As these 57 genes were specifically expressed in planta and were predicted to be secretory in nature, these were consider as putative effectors, highlighting their possible roles in the fungal pathogenicity. Notably, among these putative effectors, CmXyn1 which encodes a glycosyl hydrolase 11 displayed the highest expression level under in planta conditions and was thus selected for further functional characterization. Interestingly, the extracellular expression of CmXyn1 transiently induced cell death in Nicotiana benthamiana leaves, while intracellular expression was comparatively lesser effective. In addition, transcriptome analysis on rice leaves during C. miyabeanus infection and comparing it to the rice leaf transcriptome data obtained during hemibiotrophic pathogen Magnaporthe oryzae infection led to the discovery of 18 receptors/receptor-like kinases that were commonly expressed in response to both pathogens, indicating their key roles in rice defense response. Taken together, our findings provide new insights into rice-C. miyabeanus interaction as well as the unique and common defense responses of rice against hemibiotroph and necrotroph model systems.

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转录组分析揭示了CmXyn1(一种糖基水解酶11)在米氏蜗虫致病性中的作用
坏死性致病菌稻褐叶斑病(coliobolus miyabeanus)引起水稻褐叶斑病,严重影响水稻产量和品质。然而,水稻- c的分子机制尚不清楚。由于对这一病理系统的研究有限,Miyabeanus仍然知之甚少。阐明水稻- c的分子机制。本研究对体外和栽培的miyabeanus进行了转录组分析。该分析共鉴定出24,060个基因,其中426个体外表达基因和57个植物表达基因被预测编码分泌蛋白。由于这57个基因在植物中特异性表达,并且在自然界中被预测为分泌性基因,因此这些基因被认为是假定的效应器,突出了它们在真菌致病性中的可能作用。值得注意的是,在这些推测的效应物中,编码糖基水解酶11的CmXyn1在植物条件下的表达水平最高,因此被选中进行进一步的功能表征。有趣的是,CmXyn1的细胞外表达可瞬间诱导烟叶细胞死亡,而细胞内表达的效果相对较差。此外,通过对稻角霉感染水稻叶片的转录组分析,并将其与半生物营养病原菌稻角霉(Magnaporthe oryzae)感染期间获得的水稻叶片转录组数据进行比较,发现了18种受体/受体样激酶,这些受体/受体样激酶在两种病原菌感染时均有表达,表明它们在水稻防御反应中起关键作用。综上所述,我们的发现为水稻- c提供了新的见解。Miyabeanus相互作用以及水稻对半营养和坏死营养模式系统的独特和共同防御反应。
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来源期刊
Applied Biological Chemistry
Applied Biological Chemistry Chemistry-Organic Chemistry
CiteScore
5.40
自引率
6.20%
发文量
70
审稿时长
20 weeks
期刊介绍: Applied Biological Chemistry aims to promote the interchange and dissemination of scientific data among researchers in the field of agricultural and biological chemistry. The journal covers biochemistry and molecular biology, medical and biomaterial science, food science, and environmental science as applied to multidisciplinary agriculture.
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