哺乳动物正呼肠孤病毒的改良反向遗传学系统。
An improved reverse genetics system for mammalian orthoreoviruses.
机构信息
Department of Pediatrics, Vanderbilt University School of Medicine, Nashville, TN 37232, USA.
出版信息
Virology. 2010 Mar 15;398(2):194-200. doi: 10.1016/j.virol.2009.11.037. Epub 2009 Dec 29.
Abstract
Mammalian orthoreoviruses (reoviruses) are highly useful models for studies of double-stranded RNA virus replication and pathogenesis. We previously developed a strategy to recover prototype reovirus strain T3D from cloned cDNAs transfected into murine L929 fibroblast cells. Here, we report the development of a second-generation reovirus reverse genetics system featuring several major improvements: (1) the capacity to rescue prototype reovirus strain T1L, (2) reduction of required plasmids from 10 to 4, and (3) isolation of recombinant viruses following transfection of baby hamster kidney cells engineered to express bacteriophage T7 RNA polymerase. The efficiency of virus rescue using the 4-plasmid strategy was substantially increased in comparison to the original 10-plasmid system. We observed full compatibility of T1L and T3D rescue vectors when intermixed to produce a panel of T1LxT3D monoreassortant viruses. Improvements to the reovirus reverse genetics system enhance its applicability for studies of reovirus biology and clinical use.
摘要
哺乳动物正呼肠孤病毒(呼肠孤病毒)是研究双链 RNA 病毒复制和发病机制的高度有用模型。我们之前开发了一种从转染到鼠 L929 成纤维细胞的克隆 cDNA 中回收原型呼肠孤病毒株 T3D 的策略。在这里,我们报告了第二代呼肠孤病毒反向遗传学系统的开发,该系统具有几个主要改进:(1)能够拯救原型呼肠孤病毒株 T1L,(2)减少所需质粒的数量从 10 个减少到 4 个,(3)在转染表达噬菌体 T7 RNA 聚合酶的工程化仓鼠肾细胞后分离重组病毒。与原始的 10 质粒系统相比,使用 4 质粒策略进行病毒拯救的效率大大提高。我们观察到 T1L 和 T3D 拯救载体完全兼容,当混合在一起产生一组 T1LxT3D 单重组病毒时。对呼肠孤病毒反向遗传学系统的改进增强了其在呼肠孤病毒生物学和临床应用研究中的适用性。
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