ssDNA 病毒捕获 RNA 的机制：RNA 的大盗。

Mechanisms for RNA capture by ssDNA viruses: grand theft RNA.

机构信息

Biology Department, Center for Life in Extreme Environments, Portland State University, P.O. Box 751, Portland, OR 97207-0751, USA.

出版信息

J Mol Evol. 2013 Jun;76(6):359-64. doi: 10.1007/s00239-013-9569-9. Epub 2013 Jun 20.

DOI:10.1007/s00239-013-9569-9

PMID:23784142

Abstract

Viruses contain three common types of packaged genomes; double-stranded DNA (dsDNA), RNA (mostly single and occasionally double stranded) and single-stranded DNA (ssDNA). There are relatively straightforward explanations for the prevalence of viruses with dsDNA and RNA genomes, but the evolutionary basis for the apparent success of ssDNA viruses is less clear. The recent discovery of four ssDNA virus genomes that appear to have been formed by recombination between co-infecting RNA and ssDNA viruses, together with the high mutation rate of ssDNA viruses provide possible explanations. RNA-DNA recombination allows ssDNA viruses to access much broader sequence space than through nucleotide substitution and DNA-DNA recombination alone. Multiple non-exclusive mechanisms, all due to the unique replication of ssDNA viruses, are proposed for this unusual RNA capture. RNA capture provides an explanation for the evolutionary success of the ssDNA viruses and may help elucidate the mystery of integrated RNA viruses in viral and cellular DNA genomes.

摘要

病毒包含三种常见的包装基因组类型

双链 DNA(dsDNA)、RNA（大多为单链，偶尔为双链）和单链 DNA(ssDNA)。dsDNA 和 RNA 基因组病毒的流行有相对简单的解释，但 ssDNA 病毒明显成功的进化基础不太清楚。最近发现的四个 ssDNA 病毒基因组似乎是由感染 RNA 和 ssDNA 病毒的重组形成的，加上 ssDNA 病毒的高突变率，为这一现象提供了可能的解释。RNA-DNA 重组使 ssDNA 病毒能够访问比核苷酸替换和单独的 DNA-DNA 重组更广泛的序列空间。由于 ssDNA 病毒的独特复制，提出了多种非排他性机制来解释这种不寻常的 RNA 捕获。RNA 捕获为 ssDNA 病毒的进化成功提供了一个解释，也可能有助于阐明整合 RNA 病毒在病毒和细胞 DNA 基因组中的奥秘。

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ssDNA 病毒捕获 RNA 的机制：RNA 的大盗。

Mechanisms for RNA capture by ssDNA viruses: grand theft RNA.

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病毒包含三种常见的包装基因组类型

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