HIV-1基质蛋白碱性结构域和C末端突变诱导的复制缺陷特征
Characterization of replication defects induced by mutations in the basic domain and C-terminus of HIV-1 matrix.
作者信息
Bhatia Ajay K, Campbell Nancy, Panganiban Antonito, Ratner Lee
机构信息
Division of Molecular Oncology, Departments of Medicine and Molecular Microbiology, Washington University Medical Center, St. Louis, MO, USA.
出版信息
Virology. 2007 Dec 5;369(1):47-54. doi: 10.1016/j.virol.2007.06.046. Epub 2007 Aug 13.
Abstract
Extensive mutagenesis has defined distinct functional domains in the HIV-1 matrix domain (MA). In an attempt to more clearly define functions of regions of MA which affect viral entry, we analyzed mutations in the N-terminal basic and the C-terminal helical domains. Deletions of 8-10 amino acid residues of the C-terminal fifth helix of MA resulted in viruses that were only mildly defective in infectivity and fusion. The defect exhibited by these mutations could largely be attributed to a reduction in levels of viral envelope incorporated into mature virions. Truncation of the gp41 cytoplasmic tail (gp41CT) could rescue the phenotype of one of these mutants. In contrast, mutations of multiple basic residues in the N-terminus of MA were severely defective in both infectivity and fusion. While these mutations induce severe envelope incorporation defects, they also result in virus crippled at a post-entry step, since truncation of the gp41CT could not rescue the infectivity defect.
摘要
广泛的诱变已确定了HIV-1基质结构域(MA)中不同的功能域。为了更清楚地界定影响病毒进入的MA区域的功能,我们分析了N端碱性结构域和C端螺旋结构域中的突变。MA的C端第五螺旋缺失8 - 10个氨基酸残基会导致病毒在感染性和融合方面仅存在轻微缺陷。这些突变所表现出的缺陷很大程度上可归因于掺入成熟病毒颗粒中的病毒包膜水平降低。gp41胞质尾(gp41CT)的截短可以挽救其中一个突变体的表型。相比之下,MA N端多个碱性残基的突变在感染性和融合方面均存在严重缺陷。虽然这些突变会导致严重的包膜掺入缺陷,但它们也会使病毒在进入后阶段出现缺陷,因为gp41CT的截短无法挽救感染性缺陷。
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