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HIV-1 Tat与TAR RNA相互作用的亚型特异性分析揭示了病毒活性的结构决定因素。

Analyses of Subtype Specific HIV-1 Tat-TAR RNA Interaction Reveals the Structural Determinants for Viral Activity.

作者信息

Ronsard Larance, Rai Tripti, Rai Devesh, Ramachandran Vishnampettai G, Banerjea Akhil C

机构信息

Laboratory of Virology, National Institute of ImmunologyNew Delhi, India.

Department of Microbiology, University College of Medical Sciences and Guru Teg Bahadur HospitalNew Delhi, India.

出版信息

Front Microbiol. 2017 Aug 8;8:1467. doi: 10.3389/fmicb.2017.01467. eCollection 2017.

DOI:10.3389/fmicb.2017.01467
PMID:28848502
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5550727/
Abstract

HIV-1 Tat transactivates viral genes through strong interaction with TAR RNA. The stem-loop bulged region of TAR consisting of three nucleotides at the position 23-25 and the loop region consisting of six nucleotides at the position 30-35 are essential for viral transactivation. The arginine motif of Tat (five arginine residues on subtype TatC) is critically important for TAR interaction. Any mutations in this motif could lead to reduce transactivation ability and pathogenesis. Here, we identified structurally important residues (arginine and lysine residues) of Tat in this motif could bind to TAR via hydrogen bond interactions which is critical for transactivation. Natural mutant Ser46Phe in the core motif could likely led to conformational change resulting in more hydrogen bond interactions than the wild type Tat making it highly potent transactivator. Importantly, we report the possible probabilities of number of hydrogen bond interactions in the wild type Tat and the mutants with TAR complexes. This study revealed the differential transactivation of subtype B and C Tat could likely be due to the varying number of hydrogen bonds with TAR. Our data support that the N-terminal and the C-terminal domains of Tat is involved in the TAR interactions through hydrogen bonds which is important for transactivation. This study highlights the evolving pattern of structurally important determinants of Tat in the arginine motif for viral transactivation.

摘要

HIV-1反式激活因子(Tat)通过与反式激活应答元件(TAR)RNA的强烈相互作用来反式激活病毒基因。TAR的茎环凸起区域(由第23 - 25位的三个核苷酸组成)和环区域(由第30 - 35位的六个核苷酸组成)对于病毒反式激活至关重要。Tat的精氨酸基序(TatC亚型上的五个精氨酸残基)对于与TAR的相互作用至关重要。该基序中的任何突变都可能导致反式激活能力和致病机制降低。在这里,我们确定了该基序中Tat的结构重要残基(精氨酸和赖氨酸残基)可通过氢键相互作用与TAR结合,这对于反式激活至关重要。核心基序中的天然突变体Ser46Phe可能导致构象变化,从而产生比野生型Tat更多的氢键相互作用,使其成为高效的反式激活因子。重要的是,我们报道了野生型Tat和与TAR形成复合物的突变体中氢键相互作用数量的可能概率。这项研究表明,B亚型和C亚型Tat的反式激活差异可能是由于与TAR形成的氢键数量不同。我们的数据支持Tat的N端和C端结构域通过氢键参与与TAR的相互作用,这对于反式激活很重要。这项研究突出了Tat在精氨酸基序中病毒反式激活的结构重要决定因素的演变模式。

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