Metagenomic and Molecular Detection of Novel Fecal Viruses in Free-Ranging Agile Wallabies

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-13 DOI:10.1007/s10393-023-01659-2
God’spower Richard Okoh, Ellen Ariel, David Whitmore, Paul F. Horwood
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Abstract

The agile wallaby (Notamacropus agilis) is one of the most abundant marsupial species in northern Queensland and a competent host for the zoonotic Ross River virus. Despite their increased proximity and interactions with humans, little is known about the viruses carried by these animals, and whether any are of conservation or zoonotic importance. Metagenomics and molecular techniques were used in a complementary manner to identify and characterize novel viruses in the fecal samples of free-ranging agile wallabies. We detected a variety of novel marsupial-related viral species including agile wallaby atadenovirus 1, agile wallaby chaphamaparvovirus 1–2, agile wallaby polyomavirus 1–2, agile wallaby associated picobirnavirus 1–9, and a known macropod gammaherpesvirus 3. Phylogenetic analyses indicate that most of these novel viruses would have co-evolved with their hosts (agile wallabies). Additionally, non-marsupial viruses that infect bacteria (phages), plants, insects, and other eukaryotes were identified. This study highlighted the utility of non-invasive sampling as well as the integration of broad-based molecular assays (consensus PCR and next generation sequencing) for monitoring the emergence of potential pathogenic viruses in wildlife species. Furthermore, the novel marsupial viruses identified in this study will enrich the diversity of knowledge about marsupial viruses, and may be useful for developing diagnostics and vaccines.

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自由活动的敏捷小袋鼠新型粪便病毒的元基因组和分子检测
敏捷的小袋鼠(Notamacropus agilis)是昆士兰州北部最丰富的有袋类动物之一,也是人畜共患的罗斯河病毒的宿主。尽管它们与人类的接触和相互作用越来越近,但人们对这些动物携带的病毒知之甚少,也不知道其中是否有保护或人畜共患的重要性。利用元基因组学和分子技术相辅相成的方式,鉴定和表征自由放养的敏捷小袋鼠粪便样本中的新型病毒。我们检测到多种新的有袋动物相关病毒,包括敏捷小袋鼠腺病毒1、敏捷小袋鼠chaphamaparvovirus 1 - 2、敏捷小袋鼠多瘤病毒1 - 2、敏捷小袋鼠相关小核糖核酸病毒1 - 9和已知的大足动物伽玛疱疹病毒3。系统发育分析表明,大多数这些新型病毒将与它们的宿主(敏捷的小袋鼠)共同进化。此外,还发现了感染细菌(噬菌体)、植物、昆虫和其他真核生物的非有袋动物病毒。这项研究强调了非侵入性采样以及广泛的分子分析(共识PCR和下一代测序)在监测野生动物物种中潜在致病性病毒出现方面的应用。此外,本研究发现的新型有袋动物病毒将丰富有袋动物病毒知识的多样性,并可能对开发诊断和疫苗有用。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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