IV, 6. Calicivirus RNA recombination.

Perspectives in medical virology Pub Date : 2003-01-01 Epub Date: 2004-09-14 DOI:10.1016/S0168-7069(03)09032-3

David O Matson

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引用次数: 3

Abstract

RNA recombination apparently contributed to the evolution of CVs. Nucleic acid sequence homology or identity and similar RNA secondary structure of CVs and non-CVs may provide a locus for recombination within CVs or with non-CVs should co-infections of the same cell occur. Natural recombinants have been demonstrated among other enteric viruses, including Picornaviridae (Kirkegaard and Baltimore, 1986; Furione et al., 1993), Astroviridae (Walter et al., 2001), and possibly rotaviruses (e.g., Desselberger, 1996; Suzuki et al., 1998), augmenting the natural diversity of these pathogens and complicating viral gastroenteritis prevention strategies based upon traditional vaccines. Such is the case for CVs and Astroviridae, whose recombinant strains may be a common portion of naturally circulating strains. The taxonomic - and perhaps biologic - limits of recombination are defined by the suggested recombination of Nanovirus and CV, viruses from hosts of different biologic orders; the relationship of picornaviruses and CVs, viruses in different families, as recombination partners; and the intra-generic recombination between different clades of NLVs.

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第四,6。杯状病毒RNA重组。

RNA重组明显促进了CVs的进化。当同一细胞发生共感染时，CVs和非CVs的核酸序列同源性或同源性以及相似的RNA二级结构可能为CVs内部或与非CVs的重组提供位点。在其他肠道病毒中，包括小核糖核酸病毒科(Kirkegaard和Baltimore, 1986;furone等人，1993年)，星状病毒科(Walter等人，2001年)，可能还有轮状病毒(例如，Desselberger, 1996年;Suzuki等人，1998年)，增加了这些病原体的自然多样性，并使基于传统疫苗的病毒性胃肠炎预防策略复杂化。这就是CVs和星状病毒科的情况，其重组菌株可能是自然循环菌株的共同部分。重组的分类学和生物学极限是由纳米病毒和CV(来自不同生物目宿主的病毒)的拟议重组来定义的;小核糖核酸病毒与不同科病毒CVs作为重组伙伴的关系;以及nlv不同分支间的属内重组。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Perspectives in medical virology

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