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Ty1转座需要蛋白酶切割位点:并非所有位点都是相同的。

Ty1 proteolytic cleavage sites are required for transposition: all sites are not created equal.

作者信息

Merkulov G V, Lawler J F, Eby Y, Boeke J D

机构信息

Department of Molecular Biology and Genetics, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA.

出版信息

J Virol. 2001 Jan;75(2):638-44. doi: 10.1128/JVI.75.2.638-644.2001.

DOI:10.1128/JVI.75.2.638-644.2001
PMID:11134277
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC113960/
Abstract

The retroviral protease is a key enzyme in a viral multienzyme complex that initiates an ordered sequence of events leading to virus assembly and propagation. Viral peptides are initially synthesized as polyprotein precursors; these precursors undergo a number of proteolytic cleavages executed by the protease in a specific and presumably ordered manner. To determine the role of individual protease cleavage sites in Ty1, a retrotransposon from Saccharomyces cerevisiae, the cleavage sites were systematically mutagenized. Altering the cleavage sites of the yeast Ty1 retrotransposon produces mutants with distinct retrotransposition phenotypes. Blocking the Gag/PR site also blocks cleavage at the other two cleavage sites, PR/IN and IN/RT. In contrast, mutational block of the PR/IN or IN/RT sites does not prevent cleavage at the other two sites. Retrotransposons with mutations in each of these sites have transposition defects. Mutations in the PR/IN and IN/RT sites, but not in the Gag/PR site, can be complemented in trans by endogenous Ty1 copies. Hence, the digestion of the Gag/PR site and release of the protease N terminus is a prerequisite for processing at the remaining sites; cleavage of PR/IN is not required for the cleavage of IN/RT, and vice versa. Of the three cleavage sites in the Gag-Pol precursor, the Gag/PR site is processed first. Thus, Ty1 Gag-Pol processing proceeds by an ordered pathway.

摘要

逆转录病毒蛋白酶是病毒多酶复合体中的关键酶,它启动一系列有序事件,导致病毒组装和传播。病毒肽最初作为多蛋白前体合成;这些前体通过蛋白酶以特定且可能有序的方式进行一系列蛋白水解切割。为了确定酿酒酵母逆转座子Ty1中各个蛋白酶切割位点的作用,对切割位点进行了系统诱变。改变酵母Ty1逆转座子的切割位点会产生具有不同逆转座表型的突变体。阻断Gag/PR位点也会阻断其他两个切割位点PR/IN和IN/RT的切割。相反,PR/IN或IN/RT位点的突变阻断不会阻止其他两个位点的切割。在这些位点中每个位点都有突变的逆转座子具有转座缺陷。PR/IN和IN/RT位点的突变,但不是Gag/PR位点的突变,可以被内源性Ty1拷贝反式互补。因此,Gag/PR位点的切割和蛋白酶N端的释放是在其余位点进行加工的前提;PR/IN的切割对于IN/RT的切割不是必需的,反之亦然。在Gag-Pol前体的三个切割位点中,Gag/PR位点首先被加工。因此,Ty1 Gag-Pol的加工通过有序途径进行。

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