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对1型人类免疫缺陷病毒RNA在体内进行衣壳化很重要的功能性发夹的位置依赖性

Position dependence of functional hairpins important for human immunodeficiency virus type 1 RNA encapsidation in vivo.

作者信息

McBride M S, Panganiban A T

机构信息

McArdle Laboratory for Cancer Research, University of Wisconsin Medical School, Madison 53706, USA.

出版信息

J Virol. 1997 Mar;71(3):2050-8. doi: 10.1128/JVI.71.3.2050-2058.1997.

Abstract

At least two hairpins in the 5' untranslated leader region, stem-loops 1 and 3 (SL1 and SL3), contribute to human immunodeficiency virus type 1 RNA encapsidation in vivo. We used a competitive assay, which measures the relative encapsidation efficiency of mutant viral RNA in the presence of competing wild-type RNA, to compare the contributions of SL1, SL3, and two adjacent secondary structures, SL2 and SL4, to encapsidation. SL2 is not required for RNA encapsidation, while SL1, SL3, and SL4 all contribute approximately equally to encapsidation. To determine whether these hairpins function in a position-dependent manner, we interchanged the positions of two of these stem-loop structures. This resulted in substantial diminution of encapsidation, indicating that the secondary structures that comprise E, the encapsidation signal, function only in their correct contexts. Mutation of nucleotides flanking SL1 and SL3 had little effect on encapsidation. We also showed that SL1, while present on both genomic and subgenomic viral RNAs, nonetheless contributes to selective encapsidation of genomic RNA. Taken together, these data are consistent with the formation of a higher-order RNA structure, partially composed of SL1, SL3, and SL4, that functions to effect concurrent encapsidation of full-length RNA and exclusion of subgenomic RNA. Finally, it has been reported that E is required for efficient translation of Gag mRNA in vivo. However, we have found that a variety of mutants, including a mutant lacking the entire region encompassing SL1, SL2, and SL3, still produce RNAs that are efficiently translated. These data indicate that E is unlikely to contribute to efficient Gag mRNA translation in vivo.

摘要

5'非翻译前导区中的至少两个发夹结构,即茎环1和茎环3(SL1和SL3),在体内有助于1型人类免疫缺陷病毒RNA的包装。我们使用了一种竞争性测定法,该方法在存在竞争性野生型RNA的情况下测量突变病毒RNA的相对包装效率,以比较SL1、SL3以及两个相邻二级结构SL2和SL4对包装的贡献。RNA包装不需要SL2,而SL1、SL3和SL4对包装的贡献大致相同。为了确定这些发夹结构是否以位置依赖的方式发挥作用,我们互换了其中两个茎环结构的位置。这导致包装效率大幅降低,表明构成包装信号E的二级结构仅在其正确的环境中发挥作用。SL1和SL3侧翼核苷酸的突变对包装影响很小。我们还表明,SL1虽然存在于基因组和亚基因组病毒RNA上,但仍有助于基因组RNA的选择性包装。综上所述,这些数据与形成一种高阶RNA结构一致,该结构部分由SL1、SL3和SL4组成,其作用是实现全长RNA的同时包装和亚基因组RNA的排除。最后,据报道,E是体内Gag mRNA有效翻译所必需的。然而,我们发现,包括一个缺失包含SL1、SL2和SL3的整个区域的突变体在内的多种突变体,仍然能产生有效翻译的RNA。这些数据表明,E不太可能在体内促进Gag mRNA的有效翻译。

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