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体内生物素化及HIV-1基质蛋白与整合酶蛋白的捕获

In vivo biotinylation and capture of HIV-1 matrix and integrase proteins.

作者信息

Belshan Michael, Schweitzer Cameron J, Donnellan Meghan R, Lu Richard, Engelman Alan

机构信息

Department of Medical Microbiology and Immunology, Creighton University School of Medicine, Omaha, NE 68178, United States.

出版信息

J Virol Methods. 2009 Aug;159(2):178-84. doi: 10.1016/j.jviromet.2009.03.017. Epub 2009 Mar 26.

DOI:10.1016/j.jviromet.2009.03.017
PMID:19490971
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2691866/
Abstract

This report describes the adaptation of the biotin ligase BirA-biotin acceptor sequence (BAS) labeling system to biotinylate specific human immunodeficiency virus 1 (HIV-1) proteins in vivo. Two HIV-1 clones were constructed, with the BAS introduced into the matrix region of gag or the integrase region of pol. Specific biotinylation of target proteins in virions was observed when molecular clones were co-expressed with BirA. Both BAS-containing viruses propagated in SupT1 T-cells although replication of the integrase clone was delayed. Further studies demonstrated that the integrase insertion yielded an approximate 40% reduction in single-round infectivity as assessed on MAGI-5 indicator cells, as well as in the in vitro integration activity of preintegration complexes extracted from acutely infected C8166-45 T-cells. Biotinylation of the integrase BAS tag furthermore rendered this virus non-infectious. The matrix viral clone by contrast displayed wild-type behavior under all conditions tested. These results therefore establish a system whereby biotinylated matrix protein in the context of replication-competent virus could be used to label and capture viral protein complexes in vivo.

摘要

本报告描述了生物素连接酶BirA-生物素受体序列(BAS)标记系统在体内对特定人类免疫缺陷病毒1(HIV-1)蛋白进行生物素化修饰的适应性改造。构建了两个HIV-1克隆,将BAS引入gag的基质区域或pol的整合酶区域。当分子克隆与BirA共表达时,观察到病毒粒子中靶蛋白的特异性生物素化修饰。尽管整合酶克隆的复制延迟,但两种含BAS的病毒均能在SupT1 T细胞中增殖。进一步研究表明,在MAGI-5指示细胞上评估时,整合酶插入导致单轮感染性降低约40%,从急性感染的C8166-45 T细胞中提取的预整合复合物的体外整合活性也降低。此外,整合酶BAS标签的生物素化使该病毒失去感染性。相比之下,基质病毒克隆在所有测试条件下均表现出野生型行为。因此,这些结果建立了一个系统,通过该系统,在具有复制能力的病毒环境中生物素化修饰的基质蛋白可用于在体内标记和捕获病毒蛋白复合物。

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