与 RNA/DNA 杂交体复合的人核糖核酸酶 H1 的结构：对 HIV 逆转录的深入了解。

Structure of human RNase H1 complexed with an RNA/DNA hybrid: insight into HIV reverse transcription.

作者信息

Nowotny Marcin, Gaidamakov Sergei A, Ghirlando Rodolfo, Cerritelli Susana M, Crouch Robert J, Yang Wei

机构信息

Laboratory of Molecular Biology, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Mol Cell. 2007 Oct 26;28(2):264-76. doi: 10.1016/j.molcel.2007.08.015.

DOI:10.1016/j.molcel.2007.08.015

PMID:17964265

Abstract

We report here crystal structures of human RNase H1 complexed with an RNA/DNA substrate. Unlike B. halodurans RNase H1, human RNase H1 has a basic protrusion, which forms a DNA-binding channel and together with the conserved phosphate-binding pocket confers specificity for the B form and 2'-deoxy DNA. The RNA strand is recognized by four consecutive 2'-OH groups and cleaved by a two-metal ion mechanism. Although RNase H1 is overall positively charged, the substrate interface is neutral to acidic in character, which likely contributes to the catalytic specificity. Positions of the scissile phosphate and two catalytic metal ions are interdependent and highly coupled. Modeling of HIV reverse transcriptase (RT) with RNA/DNA in its RNase H active site suggests that the substrate cannot simultaneously occupy the polymerase active site and must undergo a conformational change to toggle between the two catalytic centers. The region that accommodates this conformational change offers a target to develop HIV-specific inhibitors.

摘要

我们在此报告人核糖核酸酶H1（RNase H1）与RNA/DNA底物复合物的晶体结构。与嗜盐碱杆菌RNase H1不同，人RNase H1有一个碱性突出部，它形成一个DNA结合通道，并与保守的磷酸结合口袋一起赋予对B型和2'-脱氧DNA的特异性。RNA链由四个连续的2'-OH基团识别，并通过双金属离子机制切割。尽管RNase H1总体带正电荷，但底物界面在性质上呈中性至酸性，这可能有助于催化特异性。切割磷酸基团和两个催化金属离子的位置相互依赖且高度耦合。对HIV逆转录酶（RT）在其RNase H活性位点与RNA/DNA进行建模表明，底物不能同时占据聚合酶活性位点，必须经历构象变化才能在两个催化中心之间切换。容纳这种构象变化的区域为开发HIV特异性抑制剂提供了一个靶点。

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与 RNA/DNA 杂交体复合的人核糖核酸酶 H1 的结构：对 HIV 逆转录的深入了解。

Structure of human RNase H1 complexed with an RNA/DNA hybrid: insight into HIV reverse transcription.

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