{"title":"澳大利亚大陆两个地区大豆矮小病毒的遗传多样性。","authors":"B. S. Congdon, M. Sharman, M. A. Kehoe","doi":"10.1007/s00705-024-06142-z","DOIUrl":null,"url":null,"abstract":"<div><p>Soybean dwarf virus (SbDV; family <i>Tombusviridae</i>, genus <i>Luteovirus</i>, species <i>Luteovirus glycinis</i>) is an RNA plant virus that is transmitted solely by aphids in a persistent, circulative and non-propagative manner. SbDV causes significant losses in cultivated Fabaceae, especially in subterranean clover (<i>Trifolium subterraneum</i>) pastures of mainland Australia. SbDV isolates are classified into four phenotypically distinguishable strains: YP, YS, DP, and DS. Y and D strains differ primarily in their host range, and P and S strains in their primary vector species. Genetically, Y and D strains separate into two clades in every genomic region except for the N-terminal region of the readthrough domain (N-RTD), in which P and S strains separate. SbDV diversity in Australia has yet to be investigated, so in this study, 41 isolates were collected from six different host species across two production regions of Australia: the south coast of Western Australia (‘south-west’) and northern New South Wales/southern Queensland (‘north-east’). A near-complete genome sequence of each isolate was obtained, and together with all 50 whole-genome sequences available in the GenBank database, underwent phylogenetic analysis of the whole genome nt and the N-RTD aa sequences. At the whole-genome level, the isolates separated into D and Y clades. At the N-RTD level, most of the isolates separated into P and S clades. All south-west isolates and 11 of the 31 north-east isolates were in the Y clade, and the remaining 20 north-east isolates were in the D clade. Except for one isolate that fell outside the P and S clades, all south-west and north-east isolates were in the P clade, suggesting that they are transmitted by <i>Acyrthosiphon pisum</i> and <i>Myzus persicae</i>. Available biological data largely supported the phenotypic inferences made from the phylogenetic analysis, suggesting that genetic data can provide critical epidemiological insights, provided that sufficient biological data have been collected.</p></div>","PeriodicalId":8359,"journal":{"name":"Archives of Virology","volume":"169 11","pages":""},"PeriodicalIF":2.5000,"publicationDate":"2024-10-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11461792/pdf/","citationCount":"0","resultStr":"{\"title\":\"Genetic diversity of soybean dwarf virus in two regions of mainland Australia\",\"authors\":\"B. S. Congdon, M. Sharman, M. A. 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SbDV diversity in Australia has yet to be investigated, so in this study, 41 isolates were collected from six different host species across two production regions of Australia: the south coast of Western Australia (‘south-west’) and northern New South Wales/southern Queensland (‘north-east’). A near-complete genome sequence of each isolate was obtained, and together with all 50 whole-genome sequences available in the GenBank database, underwent phylogenetic analysis of the whole genome nt and the N-RTD aa sequences. At the whole-genome level, the isolates separated into D and Y clades. At the N-RTD level, most of the isolates separated into P and S clades. All south-west isolates and 11 of the 31 north-east isolates were in the Y clade, and the remaining 20 north-east isolates were in the D clade. 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引用次数: 0
摘要
大豆矮小病毒(SbDV;Tombusviridae 科,Luteovirus 属,Luteovirus glycinis 种)是一种 RNA 植物病毒,仅由蚜虫以持久、循环和非繁殖的方式传播。SbDV 对栽培的豆科植物造成重大损失,尤其是澳大利亚大陆的地下三叶草(Trifolium subterraneum)牧场。SbDV 分离物可分为四种表型不同的菌株:YP、YS、DP 和 DS。Y 株和 D 株主要在寄主范围上有所不同,而 P 株和 S 株则在主要病媒种类上有所不同。从遗传学角度看,Y 和 D 株系在每个基因组区域都分为两个支系,只有读通结构域(N-RTD)的 N 端区域除外,P 株系和 S 株系在 N 端区域分开。澳大利亚的 SbDV 多样性尚待研究,因此在本研究中,从澳大利亚两个产区(西澳大利亚南海岸("西南")和新南威尔士北部/昆士兰南部("东北"))的六个不同寄主物种中收集了 41 个分离株。我们获得了每个分离物的近乎完整的基因组序列,并与 GenBank 数据库中的全部 50 个全基因组序列一起,对全基因组 nt 和 N-RTD aa 序列进行了系统进化分析。在全基因组水平上,分离物分为 D 支系和 Y 支系。在 N-RTD 水平上,大多数分离物分为 P 支系和 S 支系。所有西南分离物和 31 个东北分离物中的 11 个属于 Y 支系,其余 20 个东北分离物属于 D 支系。除了一个分离株不属于 P 支系和 S 支系外,所有西南和东北分离株都属于 P 支系,这表明它们是由 Acyrthosiphon pisum 和 Myzus persicae 传播的。现有的生物数据在很大程度上支持从系统发生学分析中得出的表型推断,这表明只要收集到足够的生物数据,遗传数据就能提供重要的流行病学见解。
Genetic diversity of soybean dwarf virus in two regions of mainland Australia
Soybean dwarf virus (SbDV; family Tombusviridae, genus Luteovirus, species Luteovirus glycinis) is an RNA plant virus that is transmitted solely by aphids in a persistent, circulative and non-propagative manner. SbDV causes significant losses in cultivated Fabaceae, especially in subterranean clover (Trifolium subterraneum) pastures of mainland Australia. SbDV isolates are classified into four phenotypically distinguishable strains: YP, YS, DP, and DS. Y and D strains differ primarily in their host range, and P and S strains in their primary vector species. Genetically, Y and D strains separate into two clades in every genomic region except for the N-terminal region of the readthrough domain (N-RTD), in which P and S strains separate. SbDV diversity in Australia has yet to be investigated, so in this study, 41 isolates were collected from six different host species across two production regions of Australia: the south coast of Western Australia (‘south-west’) and northern New South Wales/southern Queensland (‘north-east’). A near-complete genome sequence of each isolate was obtained, and together with all 50 whole-genome sequences available in the GenBank database, underwent phylogenetic analysis of the whole genome nt and the N-RTD aa sequences. At the whole-genome level, the isolates separated into D and Y clades. At the N-RTD level, most of the isolates separated into P and S clades. All south-west isolates and 11 of the 31 north-east isolates were in the Y clade, and the remaining 20 north-east isolates were in the D clade. Except for one isolate that fell outside the P and S clades, all south-west and north-east isolates were in the P clade, suggesting that they are transmitted by Acyrthosiphon pisum and Myzus persicae. Available biological data largely supported the phenotypic inferences made from the phylogenetic analysis, suggesting that genetic data can provide critical epidemiological insights, provided that sufficient biological data have been collected.
期刊介绍:
Archives of Virology publishes original contributions from all branches of research on viruses, virus-like agents, and virus infections of humans, animals, plants, insects, and bacteria. Coverage spans a broad spectrum of topics, from descriptions of newly discovered viruses, to studies of virus structure, composition, and genetics, to studies of virus interactions with host cells, organisms and populations. Studies employ molecular biologic, molecular genetics, and current immunologic and epidemiologic approaches. Contents include studies on the molecular pathogenesis, pathophysiology, and genetics of virus infections in individual hosts, and studies on the molecular epidemiology of virus infections in populations. Also included are studies involving applied research such as diagnostic technology development, monoclonal antibody panel development, vaccine development, and antiviral drug development.Archives of Virology wishes to publish obituaries of recently deceased well-known virologists and leading figures in virology.
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