Viromes of Antarctic fish resembles the diversity found at lower latitudes

IF 5.5 2区医学 Q1 VIROLOGY

Virus Evolution Pub Date : 2024-07-10 DOI:10.1093/ve/veae050

Rebecca M Grimwood, Stephanie J Waller, Janelle R Wierenga, Lauren Lim, Jeremy Dubrulle, Edward C Holmes, Jemma L Geoghegan

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Abstract

Antarctica harbours some of the most isolated and extreme environments on Earth, concealing a largely unexplored and unique component of the global animal virosphere. To understand the diversity and evolutionary histories of viruses in these polar species we determined the viromes of gill metatranscriptomes from 11 Antarctic fish species with 248 samples collected from the Ross Sea region spanning the Perciformes, Gadiformes, and Scorpaeniformes orders. The continent’s shift southward and cooling temperatures over 20 million years ago led to a reduction in biodiversity and subsequent radiation of some marine fauna, such as the notothenioid fishes. Despite decreased host species richness in polar regions, we revealed a surprisingly complex virome diversity in Ross Sea fish, with the types and numbers of viruses per host species and individuals sampled comparable to that of fish in warmer marine environments with higher host community diversity. We also observed a higher number of closely related viruses likely representing instances of recent and historic host-switching events among the Perciformes (all notothenioids) than in the Gadiformes, suggesting that rapid speciation events within this order generated closely related host species with few genetic barriers to cross-species transmission. Additionally, we identified novel genomic variation in an arenavirus with a split nucleoprotein sequence containing a stable helical structure, indicating potential adaptation of viral proteins to extreme temperatures. These findings enhance our understanding of virus evolution and virus-host interactions in response to environmental shifts, especially in less diverse ecosystems more vulnerable to the impacts of anthropogenic and climate changes. Keywords: Antarctica; Ross Sea; fish, viromes; evolution; genomes

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南极鱼类的病毒群与低纬度地区的多样性相似

南极洲拥有地球上一些最孤立、最极端的环境，隐藏着全球动物病毒圈中尚未开发的独特组成部分。为了了解这些极地物种中病毒的多样性和进化史，我们测定了 11 种南极鱼类的鳃元转录组病毒群，248 个样本采集自罗斯海地区，涵盖鲈形目、鳕形目和鲭形目。两千多万年前，南极大陆的南移和气温的降低导致了生物多样性的减少，一些海洋动物（如notothenioid鱼类）随之辐射。尽管极地地区的宿主物种丰富度下降，但我们发现罗斯海鱼类的病毒组多样性却出奇地复杂，每个宿主物种和个体采样的病毒类型和数量与宿主群落多样性较高的温暖海洋环境中的鱼类相当。与鳕形目相比，我们还在鲈形目（所有艽形目）中观察到了更多的近缘病毒，这些病毒可能代表了最近和历史上的宿主转换事件，这表明该目内部的快速物种分化事件产生了近缘宿主物种，跨物种传播的遗传障碍很少。此外，我们还发现了一种具有分裂核蛋白序列（包含稳定的螺旋结构）的北欧病毒的新基因组变异，这表明病毒蛋白可能适应极端温度。这些发现加深了我们对病毒进化和病毒-宿主相互作用应对环境变化的理解，尤其是在更容易受到人为和气候变化影响的多样性较低的生态系统中。关键词南极洲；罗斯海；鱼类；病毒组；进化；基因组

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来源期刊

Virus Evolution Immunology and Microbiology-Microbiology

CiteScore

10.50

自引率

5.70%

发文量

108

审稿时长

14 weeks

期刊介绍： Virus Evolution is a new Open Access journal focusing on the long-term evolution of viruses, viruses as a model system for studying evolutionary processes, viral molecular epidemiology and environmental virology. The aim of the journal is to provide a forum for original research papers, reviews, commentaries and a venue for in-depth discussion on the topics relevant to virus evolution.