一种环状单链 DNA 真菌病毒感染植物并产生广谱抗真菌病能力

IF 17.1 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Plant Pub Date : 2024-06-03 Epub Date: 2024-05-13 DOI:10.1016/j.molp.2024.05.003
Xianhong Wang, Ioly Kotta-Loizou, Robert H A Coutts, Huifang Deng, Zhenhao Han, Ni Hong, Karim Shafik, Liping Wang, Yashuang Guo, Mengmeng Yang, Wenxing Xu, Guoping Wang
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引用次数: 0

摘要

在真菌中很少发现环状单链(ss)DNA病毒,感染真菌和其他生物的ssDNA病毒之间的进化和生态关系仍不清楚。本文从分离自梨树的植物病原真菌 Diaporthe sojae 中发现了一种新型环状 ssDNA 病毒,暂命名为 Diaporthe sojae 环状 DNA 病毒 1(DsCDV1)。DsCDV1 的基因组为单股(3,185 nt),包被在等轴病毒(直径 21-26 nm)中。基因组由七个推测的开放阅读框组成,分别编码一个被基因间区分割的离散复制酶(Rep)、一个推测的噬菌体蛋白(CP)、几个功能未知的蛋白(P1 至 P4)和一个长的基因间区。值得注意的是,DsCDV1 Rep的两个分裂部分分别与Geminiviridae和Genomoviridae的Rep具有很高的同一性,这表明DsCDV1 Rep在进化上与这两个科都有联系。基于 Rep 或 CP 序列的系统发生分析将 DsCDV1 置于一个独特的群中,支持建立一个新的科,暂定名为 Gegemycoviridae,介于这两个科之间。当 DsCDV1 转染到宿主真菌中时,它能明显减弱真菌的生长并几乎消除毒力。值得注意的是,DsCDV1 可以系统地感染烟草和梨幼苗,提供对真菌疾病的广谱抗性。亚细胞定位分析表明,P3系统地定位在质体中,而其在反式互补实验中的表达可恢复运动缺陷植物病毒的野生型表型;因此,P3被确定为一种运动蛋白。DsCDV1 表现出其他 ssDNA 病毒所没有的独特的分子和生物学特征,是真菌和植物 ssDNA 病毒之间的纽带,并展示了 ssDNA 病毒和真菌之间的进化联系。这些发现有助于扩大我们对 ssDNA 病毒多样性和进化的了解,为管理关键植物病害提供了潜在的生物防治应用。
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A circular single-stranded DNA mycovirus infects plants and confers broad-spectrum fungal resistance.

Circular single-stranded DNA (ssDNA) viruses have been rarely found in fungi, and the evolutionary and ecological relationships among ssDNA viruses infecting fungi and other organisms remain unclear. In this study, a novel circular ssDNA virus, tentatively named Diaporthe sojae circular DNA virus 1 (DsCDV1), was identified in the phytopathogenic fungus Diaporthe sojae isolated from pear trees. DsCDV1 has a monopartite genome (3185 nt in size) encapsidated in isometric virions (21-26 nm in diameter). The genome comprises seven putative open reading frames encoding a discrete replicase (Rep) split by an intergenic region, a putative capsid protein (CP), several proteins of unknown function (P1-P4), and a long intergenic region. Notably, the two split parts of DsCDV1 Rep share high identities with the Reps of Geminiviridae and Genomoviridae, respectively, indicating an evolutionary linkage with both families. Phylogenetic analysis based on Rep or CP sequences placed DsCDV1 in a unique cluster, supporting the establishment of a new family, tentatively named Gegemycoviridae, intermediate to both families. DsCDV1 significantly attenuates fungal growth and nearly erases fungal virulence when transfected into the host fungus. Remarkably, DsCDV1 can systematically infect tobacco and pear seedlings, providing broad-spectrum resistance to fungal diseases. Subcellular localization analysis revealed that DsCDV1 P3 is systematically localized in the plasmodesmata, while its expression in trans-complementation experiments could restore systematic infection of a movement-deficient plant virus, suggesting that P3 is a movement protein. DsCDV1 exhibits unique molecular and biological traits not observed in other ssDNA viruses, serving as a link between fungal and plant ssDNA viruses and presenting an evolutionary connection between ssDNA viruses and fungi. These findings contribute to expanding our understanding of ssDNA virus diversity and evolution, offering potential biocontrol applications for managing crucial plant diseases.

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来源期刊
Molecular Plant
Molecular Plant 植物科学-生化与分子生物学
CiteScore
37.60
自引率
2.20%
发文量
1784
审稿时长
1 months
期刊介绍: Molecular Plant is dedicated to serving the plant science community by publishing novel and exciting findings with high significance in plant biology. The journal focuses broadly on cellular biology, physiology, biochemistry, molecular biology, genetics, development, plant-microbe interaction, genomics, bioinformatics, and molecular evolution. Molecular Plant publishes original research articles, reviews, Correspondence, and Spotlights on the most important developments in plant biology.
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