轮状病毒双链RNA基因组颗粒内合成的机制。
Mechanism of intraparticle synthesis of the rotavirus double-stranded RNA genome.
作者信息
Guglielmi Kristen M, McDonald Sarah M, Patton John T
机构信息
Laboratory of Infectious Diseases, NIAID, National Institutes of Health, Bethesda, Maryland 20892, USA.
出版信息
J Biol Chem. 2010 Jun 11;285(24):18123-8. doi: 10.1074/jbc.R110.117671. Epub 2010 Mar 29.
Abstract
Rotaviruses perform the remarkable tasks of transcribing and replicating 11 distinct double-stranded RNA genome segments within the confines of a subviral particle. Multiple viral polymerases are tethered to the interior of a particle, each dedicated to a solitary genome segment but acting in synchrony to synthesize RNA. Although the rotavirus polymerase specifically recognizes RNA templates in the absence of other proteins, its enzymatic activity is contingent upon interaction with the viral capsid. This intraparticle strategy of RNA synthesis helps orchestrate the concerted packaging and replication of the viral genome. Here, we review our current understanding of rotavirus RNA synthetic mechanisms.
摘要
轮状病毒在亚病毒颗粒的范围内执行转录和复制11个不同的双链RNA基因组片段这一非凡任务。多种病毒聚合酶附着在颗粒内部,每种聚合酶专门负责一个单独的基因组片段,但协同作用以合成RNA。尽管轮状病毒聚合酶在没有其他蛋白质的情况下能特异性识别RNA模板,但其酶活性取决于与病毒衣壳的相互作用。这种颗粒内RNA合成策略有助于协调病毒基因组的协同包装和复制。在此,我们综述了目前对轮状病毒RNA合成机制的理解。
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