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人杯状病毒在美洲的遗传多样性。

Genetic diversity of human sapovirus across the Americas.

机构信息

Oak Ridge Institute for Science and Education, Oak Ridge, TN, USA.

Division of Viral Diseases, Centers for Disease Control and Prevention, Atlanta, GA, USA.

出版信息

J Clin Virol. 2018 Jul;104:65-72. doi: 10.1016/j.jcv.2018.05.003. Epub 2018 May 6.

DOI:10.1016/j.jcv.2018.05.003
PMID:29753103
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8972816/
Abstract

BACKGROUND

Sapoviruses are responsible for sporadic and epidemic acute gastroenteritis worldwide. Sapovirus typing protocols have a success rate as low as 43% and relatively few complete sapovirus genome sequences are available to improve current typing protocols.

OBJECTIVE/STUDY DESIGN: To increase the number of complete sapovirus genomes to better understand the molecular epidemiology of human sapovirus and to improve the success rate of current sapovirus typing methods, we used deep metagenomics shotgun sequencing to obtain the complete genomes of 68 sapovirus samples from four different countries across the Americas (Guatemala, Nicaragua, Peru and the US).

RESULTS

VP1 genotyping showed that all sapovirus sequences could be grouped in the four established genogroups (GI (n = 13), GII (n = 30), GIV (n = 23), GV (n = 2)) that infect humans. They include the near-complete genome of a GI.6 virus and a recently reported novel GII.8 virus. Sequences of the complete RNA-dependent RNA polymerase gene could be grouped into three major genetic clusters or polymerase (P) types (GI.P, GII.P and GV.P) with all GIV viruses harboring a GII polymerase. One (GII.P-GII.4) of the new 68 sequences was a recombinant virus with the hotspot between the NS7 and VP1 regions.

CONCLUSIONS

Analyses of this expanded database of near-complete sapovirus sequences showed several mismatches in the genotyping primers, suggesting opportunities to revisit and update current sapovirus typing methods.

摘要

背景

肠萨科病毒是造成全世界散发和流行急性胃肠炎的原因。肠萨科病毒的分型方案成功率低至 43%,且目前可用于改进现有分型方案的完整肠萨科病毒基因组序列相对较少。

目的/研究设计:为了增加完整肠萨科病毒基因组的数量,以更好地了解人类肠萨科病毒的分子流行病学,并提高当前肠萨科病毒分型方法的成功率,我们使用深度宏基因组测序对来自美洲四个不同国家(危地马拉、尼加拉瓜、秘鲁和美国)的 68 个肠萨科病毒样本进行了全基因组测序。

结果

VP1 基因分型显示,所有肠萨科病毒序列可分为四个已建立的基因型(GI(n=13)、GII(n=30)、GIV(n=23)、GV(n=2)),这些基因型均可感染人类。其中包括 GI.6 病毒的近完整基因组和最近报道的新型 GII.8 病毒。完整 RNA 依赖性 RNA 聚合酶基因序列可分为三个主要的遗传聚类或聚合酶(P)型(GI.P、GII.P 和 GV.P),所有 GIV 病毒均携带 GII 聚合酶。新的 68 个序列中的一个(GII.P-GII.4)是一种重组病毒,其热点位于 NS7 和 VP1 区域之间。

结论

对这个扩展的近完整肠萨科病毒序列数据库进行分析后发现,在基因分型引物中存在一些不匹配,这表明有机会重新审视和更新当前的肠萨科病毒分型方法。

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