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A computational approach identifies two regions of Hepatitis C Virus E1 protein as interacting domains involved in viral fusion process

机译：一种计算方法将丙型肝炎病毒E1蛋白的两个区域确定为参与病毒融合过程的相互作用域

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BackgroundThe E1 protein of Hepatitis C Virus (HCV) can be dissected into two distinct hydrophobic regions: a central domain containing an hypothetical fusion peptide (FP), and a C-terminal domain (CT) comprising two segments, a pre-anchor and a trans-membrane (TM) region. In the currently accepted model of the viral fusion process, the FP and the TM regions are considered to be closely juxtaposed in the post-fusion structure and their physical interaction cannot be excluded. In the present study, we took advantage of the natural sequence variability present among HCV strains to test, by purely sequence-based computational tools, the hypothesis that in this virus the fusion process involves the physical interaction of the FP and CT regions of E1.

机译：背景丙型肝炎病毒（HCV）的E1蛋白可分为两个不同的疏水区域：包含假定融合肽（FP）的中央结构域和包含两个片段的前末端和末端的C末端域（CT）。跨膜（TM）区域。在当前公认的病毒融合过程模型中，FP和TM区被认为在融合后结构中并列紧密，并且不能排除它们的物理相互作用。在本研究中，我们利用HCV病毒株之间存在的天然序列变异性，通过纯基于序列的计算工具来测试以下假设：在这种病毒中，融合过程涉及E1的FP和CT区域的物理相互作用。

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期刊名称 BMC Structural Biology
作者
Roberto Bruni; Angela Costantino; Elena Tritarelli; Cinzia Marcantonio; Massimo Ciccozzi; Maria Rapicetta; Gamal El Sawaf; Alessandro Giuliani; Anna Rita Ciccaglione;
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年(卷),期 2009(9),-1
年度 2009
页码 48
总页数 11
原文格式 PDF
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中图分类生物物理学;
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专利

1. A computational approach identifies two regions of Hepatitis C Virus E1 protein as interacting domains involved in viral fusion process [J] . Roberto Bruni, Angela Costantino, Elena Tritarelli, BMC Structural Biology . 2009,第1期

机译：一种计算方法将丙型肝炎病毒E1蛋白的两个区域确定为参与病毒融合过程的相互作用域
2. Mutagenesis of the murine hepatitis virus nsp1-coding region identifies residues important for protein processing, viral RNA synthesis, and viral replication. [J] . Brockway SM, Denison MR Virology . 2005,第2期

机译：鼠肝炎病毒nsp1编码区的诱变识别对蛋白质加工，病毒RNA合成和病毒复制很重要的残基。
3. Hepatitis B viral polymerase fusion proteins are biologically active and can interact with the hepatitis C virus core protein in vivo. [J] . Chen KL, Chen CM, Shih CM, Journal of biomedical science. . 2001,第6期

机译：乙型肝炎病毒聚合酶融合蛋白具有生物活性，并且可以在体内与丙型肝炎病毒核心蛋白相互作用。
4. Rapid discovery of peptidic virus fusion inhibitors for urgent treatment and prevention of emerging infectious diseases caused by viruses with type Ⅰ viral fusion proteins [C] . Shi-Bo Jiang Chinese Peptide Symposium . 2005

机译：肽病毒融合抑制剂的快速发现迫切治疗和预防病毒Ⅰ型病毒融合蛋白引起的新出现传染病
5. Critical regions involved in the regulation and misregulation of the E1 homotrimerization step of the Semliki forest virus membrane fusion mechanism. [D] . Liu, Catherine Y. 2010

机译：关键区域参与Semliki森林病毒膜融合机制的E1均三聚化步骤的调控。
6. Characterization of Fusion Determinants Points to the Involvement of Three Discrete Regions of Both E1 and E2 Glycoproteins in the Membrane Fusion Process of Hepatitis C Virus [O] . Dimitri Lavillette, Eve-Isabelle Pécheur, Peggy Donot, 2007

机译：融合决定因素的表征指向参与丙型肝炎病毒膜融合过程的E1和E2糖蛋白的三个离散区域的参与。
7. A computational approach identifies two regions of Hepatitis C Virus E1 protein as interacting domains involved in viral fusion process [O] . Roberto Bruni, Angela Costantino, Elena Tritarelli, 2009

机译：一种计算方法将丙型肝炎病毒E1蛋白的两个区域确定为参与病毒融合过程的相互作用域

A computational approach identifies two regions of Hepatitis C Virus E1 protein as interacting domains involved in viral fusion process

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