RNA与DNA杂交体中C2'-OH的取向、动力学及水合作用。

The orientation and dynamics of the C2'-OH and hydration of RNA and DNA.RNA hybrids.

作者信息

Gyi J I, Lane A N, Conn G L, Brown T

机构信息

Division of Molecular Structure, National Institute for Medical Research, The Ridgeway, Mill Hill, London NW7 1AA, UK.

出版信息

Nucleic Acids Res. 1998 Jul 1;26(13):3104-10. doi: 10.1093/nar/26.13.3104.

DOI:10.1093/nar/26.13.3104

PMID:9628906

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC147665/

Abstract

The stereochemical and dynamic properties of the C2' hydroxyl group in several DNA.RNA hybrids have been measured by NMR and compared with the homologous RNA duplex. The C2'-OH NMR signals of the RNA strands were identified, and numerous specific assignments were made. The rate constants for exchange of the hydroxyl protons with water were determined at 5 degrees C, and were found to depend on both the position within a particular sequence and the nature of the duplex. On average, the exchange rate constants were slowest for the hybrids of composition rR.dY, and fastest for the RNA duplex, with an overall range of approximately 10-50/s. In the DNA.RNA hybrids, strong NOEs and ROEs were observed between the OH and the H1' of the same sugar, unambiguously showing that the OH proton points toward the H1' most of the time, and not toward the O3' of the same sugar. Evidence for significant hydration in both grooves of the DNA.RNA hybrids and the DNA duplex was found in ROESY and NOESY experiments. On average, the minor groove of the DNA.RNA hybrids showed more kinetically significant hydration than the DNA, which can be attributed to the hydrophilic lining of hydroxyl groups in RNA.

摘要

通过核磁共振（NMR）测量了几种DNA-RNA杂交体中C2'羟基的立体化学和动力学性质，并与同源RNA双链体进行了比较。确定了RNA链的C2'-OH NMR信号，并进行了大量的具体归属。在5摄氏度下测定了羟基质子与水交换的速率常数，发现其既取决于特定序列中的位置，也取决于双链体的性质。平均而言，组成rR.dY的杂交体的交换速率常数最慢，RNA双链体最快，总体范围约为10-50/s。在DNA-RNA杂交体中，观察到同一糖的OH与H1'之间有很强的核Overhauser效应（NOE）和旋转Overhauser效应（ROE），明确表明OH质子大部分时间指向H1'，而不是同一糖的O3'。在旋转Overhauser效应光谱（ROESY）和核Overhauser效应光谱（NOESY）实验中发现了DNA-RNA杂交体和DNA双链体两条沟中显著水合的证据。平均而言，DNA-RNA杂交体的小沟比DNA表现出更多动力学上显著的水合作用，这可归因于RNA中羟基的亲水内衬。

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