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Cryphonectria hypovirus 1 诱导感染植物病原真菌 Cryphonectria parasitica 的表观遗传变化。

Cryphonectria hypovirus 1-Induced Epigenetic Changes in Infected Phytopathogenic Fungus Cryphonectria parasitica.

机构信息

Department of Biology, Faculty of Science, University of Zagreb, Marulićev trg 9a, HR-10 000, Zagreb, Croatia.

出版信息

Microb Ecol. 2018 Apr;75(3):790-798. doi: 10.1007/s00248-017-1064-1. Epub 2017 Sep 1.

DOI:10.1007/s00248-017-1064-1
PMID:28865007
Abstract

Biotic stress caused by virus infections induces epigenetic changes in infected plants and animals, but this is the first report on methylation pattern changes in a fungus after mycovirus infection. As a model pathosystem for mycovirus-host interactions, we used Cryphonectria hypovirus 1 (CHV1) and its host fungus Cryphonectria parasitica, in which deregulation of methylation cycle enzymes upon virus infection was observed previously. Six CHV1 strains of different subtypes were transferred into three different C. parasitica isolates in order to assess the effect of different CHV1 strains and/or subtypes on global cytosine methylation level in infected fungus, using methylation-sensitive amplification polymorphism (MSAP). Infection with CHV1 affected the methylation pattern of the C. parasitica genome; it increased the number and diversity of methylated, hemi-methylated, and total MSAP markers found in infected fungal isolates compared to virus-free controls. The increase in methylation levels correlated well with the CHV1-induced reduction of fungal growth in vitro, indicating that C. parasitica genome methylation upon CHV1 infection, rather than being the defensive mechanism of the fungus, is more likely to be the virulence determinant of the virus. Furthermore, the severity of CHV1 effect on methylation levels of infected C. parasitica isolates depended mostly on individual CHV1 strains and on the combination of host and virus genomes, rather than on the virus subtype. These novel findings broaden our knowledge about CHV1 strains which could potentially be used in human-aided biocontrol of chestnut blight, a disease caused by C. parasitica in chestnut forest ecosystems and orchards.

摘要

病毒感染引起的生物胁迫会导致感染植物和动物的表观遗传变化,但这是首例关于真菌感染真菌病毒后甲基化模式变化的报告。作为真菌病毒-宿主相互作用的模式体系,我们使用了 Cryphonectria hypovirus 1 (CHV1)及其宿主真菌 Cryphonectria parasitica,先前观察到病毒感染会导致甲基化循环酶的失调。为了评估不同 CHV1 株系和/或亚型对感染真菌中全局胞嘧啶甲基化水平的影响,我们将六种不同亚型的 CHV1 株系转移到三种不同的 C. parasitica 分离株中,使用甲基化敏感扩增多态性(MSAP)。CHV1 感染会影响 C. parasitica 基因组的甲基化模式;与病毒对照相比,它增加了感染真菌分离株中发现的甲基化、半甲基化和总 MSAP 标记的数量和多样性。甲基化水平的增加与 CHV1 在体外降低真菌生长的程度密切相关,这表明 C. parasitica 基因组在 CHV1 感染后的甲基化,而不是真菌的防御机制,更可能是病毒的毒力决定因素。此外,CHV1 对感染的 C. parasitica 分离株的甲基化水平的影响的严重程度主要取决于个别 CHV1 株系以及宿主和病毒基因组的组合,而不是病毒亚型。这些新发现拓宽了我们对 CHV1 株系的认识,这些株系可能被用于人类辅助控制板栗疫病,这是一种由栗疫病在板栗林生态系统和果园中引起的疾病。

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