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包含HIV-1逆转录起始过程中形成的tRNA-DNA连接的嵌合杂交双链r(gcaguggc).r(gcca)d(CTGC)的NMR结构

NMR structure of the chimeric hybrid duplex r(gcaguggc).r(gcca)d(CTGC) comprising the tRNA-DNA junction formed during initiation of HIV-1 reverse transcription.

作者信息

Szyperski T, Götte M, Billeter M, Perola E, Cellai L, Heumann H, Wüthrich K

机构信息

Institut für Molekularbiologie und Biophysik, Eidgenössische Technische Hochschule Hönggerberg, Zürich, Switzerland.

出版信息

J Biomol NMR. 1999 Apr;13(4):343-55. doi: 10.1023/a:1008350604637.

DOI:10.1023/a:1008350604637
PMID:10353196
Abstract

A high-quality NMR solution structure of the chimeric hybrid duplex r(gcaguggc).r(gcca)d(CTGC) was determined using the program DYANA with its recently implemented new module FOUND, which performs exhaustive conformational grid searches for dinucleotides. To ensure conservative data interpretation, the use of 1H-1H lower distance limit constraints was avoided. The duplex comprises the tRNA-DNA junction formed during the initiation of HIV-1 reverse transcription. It forms an A-type double helix that exhibits distinct structural deviations from a standard A-conformation. In particular, the minor groove is remarkably narrow, and its width decreases from about 7.5 A in the RNA/RNA stem to about 4.5 A in the RNA/DNA segment. This is unexpected, since minor groove widths for A-RNA and RNA/DNA hybrid duplexes of approximately 11 A and approximately 8.5 A, respectively, were previously reported. The present, new structure supports that reverse transcriptase-associated RNaseH specificity is related primarily to conformational adaptability of the nucleic acid in 'induced-fit'-type interactions, rather than the minor groove width of a predominantly static nucleic acid duplex.

摘要

使用程序DYANA及其最近实现的新模块FOUND确定了嵌合杂交双链体r(gcaguggc).r(gcca)d(CTGC)的高质量NMR溶液结构,该模块对二核苷酸进行详尽的构象网格搜索。为确保保守的数据解释,避免使用1H-1H较低距离限制约束。该双链体包含HIV-1逆转录起始过程中形成的tRNA-DNA连接。它形成一种A型双螺旋,与标准A构象呈现出明显的结构偏差。特别是,小沟非常狭窄,其宽度从RNA/RNA茎中的约7.5 Å减小到RNA/DNA片段中的约4.5 Å。这是出乎意料的,因为先前报道的A-RNA和RNA/DNA杂交双链体的小沟宽度分别约为11 Å和约8.5 Å。目前的新结构支持,逆转录酶相关的RNaseH特异性主要与核酸在“诱导契合”型相互作用中的构象适应性有关,而不是主要为静态的核酸双链体的小沟宽度。

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