Pr55(gag)在tRNA3Lys与1型人类免疫缺陷病毒基因组RNA退火过程中的作用。

The role of Pr55(gag) in the annealing of tRNA3Lys to human immunodeficiency virus type 1 genomic RNA.

作者信息

Cen S, Huang Y, Khorchid A, Darlix J L, Wainberg M A, Kleiman L

机构信息

Lady Davis Institute for Medical Research and McGill AIDS Centre, Jewish General Hospital, McGill University, Montreal, Quebec, Canada H3T 1E2.

出版信息

J Virol. 1999 May;73(5):4485-8. doi: 10.1128/JVI.73.5.4485-4488.1999.

DOI:10.1128/JVI.73.5.4485-4488.1999

PMID:10196352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC104341/

Abstract

During human immunodeficiency virus type 1 (HIV-1) assembly, the primer tRNA for the reverse transcriptase-catalyzed synthesis of minus-strand strong-stop cDNA, tRNA3Lys, is selectively packaged into the virus and annealed onto the primer binding site on the RNA genome. Annealing of tRNA3Lys in HIV-1 is independent of polyprotein processing and is facilitated in vitro by p7 nucleocapsid (NCp7). We have previously shown that mutations in clusters of basic amino acids flanking the first Cys-His box in NC sequence inhibit annealing of tRNA3Lys in vivo by 70 to 80%. In this report, we have investigated whether these NC mutations act through Pr55(gag) or Pr160(gag-pol). In vivo placement of tRNA3Lys is measured with total viral RNA as the source of primer tRNA-template in an in vitro reverse transcription assay. Cotransfection of COS cells with a plasmid coding for either mutant Pr55(gag) or mutant Pr160(gag-pol), and with a plasmid containing HIV-1 proviral DNA, shows that only the NC mutations in Pr55(gag) inhibit tRNA3Lys placement. The NC mutations in Pr55(gag) reduce viral infectivity by 95% and are trans-dominant-negative, i.e., they inhibit genomic placement of tRNA3Lys even in the presence of wild-type Pr55(gag). This dominant phenotype may indicate that the mutant Pr55(gag) is disrupting an ordered Pr55(gag) structure responsible for the annealing of tRNA3Lys to genomic RNA.

摘要

在1型人类免疫缺陷病毒（HIV-1）组装过程中，用于逆转录酶催化合成负链强终止cDNA的引物tRNA，即tRNA3Lys，被选择性地包装进病毒中，并退火到RNA基因组上的引物结合位点。HIV-1中tRNA3Lys的退火与多蛋白加工无关，并且在体外由p7核衣壳（NCp7）促进。我们先前已经表明，NC序列中第一个半胱氨酸-组氨酸框两侧的碱性氨基酸簇中的突变在体内会使tRNA3Lys的退火抑制70%至80%。在本报告中，我们研究了这些NC突变是否通过Pr55（gag）或Pr160（gag-pol）起作用。在体外逆转录试验中，以总病毒RNA作为引物tRNA-模板的来源来测量tRNA3Lys在体内的定位。用编码突变型Pr55（gag）或突变型Pr160（gag-pol）的质粒与含有HIV-1前病毒DNA的质粒共转染COS细胞，结果表明只有Pr55（gag）中的NC突变抑制tRNA3Lys的定位。Pr55（gag）中的NC突变使病毒感染性降低95%，并且具有反式显性负效应，即即使在存在野生型Pr55（gag）的情况下，它们也会抑制tRNA3Lys在基因组上的定位。这种显性表型可能表明突变型Pr55（gag）正在破坏负责tRNA3Lys与基因组RNA退火的有序Pr55（gag）结构。

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Placement of tRNA primer on the primer-binding site requires pol gene expression in avian but not murine retroviruses.在禽逆转录病毒中，将tRNA引物置于引物结合位点需要pol基因表达，但在鼠逆转录病毒中则不需要。

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