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水疱性口炎病毒磷蛋白自缔合结构域的定位及功能作用

Mapping and functional role of the self-association domain of vesicular stomatitis virus phosphoprotein.

作者信息

Chen Mingzhou, Ogino Tomoaki, Banerjee Amiya K

机构信息

Virology Section, Department of Molecular Genetics, Lerner Research Institute, Cleveland Clinic, Cleveland, OH 44195, USA.

出版信息

J Virol. 2006 Oct;80(19):9511-8. doi: 10.1128/JVI.01035-06.

DOI:10.1128/JVI.01035-06
PMID:16973555
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1617241/
Abstract

The phosphoprotein (P protein) of vesicular stomatitis virus (VSV) is an essential subunit of the viral RNA-dependent RNA polymerase complex and plays a central role in viral transcription and replication. Using both the yeast two-hybrid system and coimmunoprecipitation assays, we confirmed the self-association of the P protein of Indiana serotype (Pind) and heterotypic interaction between Pind and the P protein of New Jersey serotype (Pnj). Furthermore, by using various truncation and deletion mutants of Pind, the self-association domain of the Pind protein was mapped to amino acids 161 to 210 within the hinge region. The self-association domain of Pind protein is not required for its binding to nucleocapsid and large proteins. We further demonstrated that the self-association domain of Pind protein is essential for VSV transcription in a minireplicon system and that a synthetic peptide spanning amino acids 191 to 210 in the self-association domain of Pind protein strongly inhibited the transcription of the VSV genome in vitro in a dose-dependent manner. These results indicated that the self-association domain of Pind protein plays a critical role in VSV transcription.

摘要

水泡性口炎病毒(VSV)的磷蛋白(P蛋白)是病毒RNA依赖性RNA聚合酶复合物的一个必需亚基,在病毒转录和复制中起核心作用。利用酵母双杂交系统和免疫共沉淀分析,我们证实了印第安纳血清型(Pind)的P蛋白的自我缔合以及Pind与新泽西血清型(Pnj)的P蛋白之间的异型相互作用。此外,通过使用Pind的各种截短和缺失突变体,将Pind蛋白的自我缔合结构域定位到铰链区内的第161至210位氨基酸。Pind蛋白的自我缔合结构域对于其与核衣壳和大蛋白的结合并非必需。我们进一步证明,Pind蛋白的自我缔合结构域在微型复制子系统中对VSV转录至关重要,并且在Pind蛋白自我缔合结构域中跨越第191至210位氨基酸的合成肽在体外以剂量依赖性方式强烈抑制VSV基因组的转录。这些结果表明,Pind蛋白的自我缔合结构域在VSV转录中起关键作用。

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Homo-oligomerization of Marburgvirus VP35 is essential for its function in replication and transcription.马尔堡病毒VP35的同源寡聚化对其在复制和转录中的功能至关重要。
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