甲醇溶液中(m5dC-dG)3从B型到Z型转变的一维和二维核磁共振研究。

A one- and two-dimensional NMR study of the B to Z transition of (m5dC-dG)3 in methanolic solution.

作者信息

Feigon J, Wang A H, van der Marel G A, Van Boom J H, Rich A

出版信息

Nucleic Acids Res. 1984 Jan 25;12(2):1243-63. doi: 10.1093/nar/12.2.1243.

DOI:10.1093/nar/12.2.1243

PMID:6694910

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC318570/

Abstract

The deoxyribose hexanucleoside pentaphosphate (m5dC-dG)3 has been studied by 500 MHz 1H NMR in D2O (0.1 M NaCl) and in D2O/deuterated methanol mixtures. Two conformations, in slow equilibrium on the NMR time scale, were detected in methanolic solution. Two-dimensional nuclear Overhauser effect (NOE) experiments were used to assign the base and many of the sugar resonances as well as to determine structural features for both conformations. The results were consistent with the an equilibrium in solution between B-DNA and Z-DNA. The majority of the molecules have a B-DNA structure in low-salt D2O and a Z-DNA structure at high methanol concentrations. A cross-strand NOE between methyl groups on adjacent cytosines is observed for Z-DNA but not B-DNA. The B-DNA conformation predominates at low methanol concentrations and is stabilized by increasing temperature, while the Z-DNA conformation predominates at high methanol concentrations and low temperatures. 31P NMR spectra gave results consistent with those obtained by 1H NMR. Comparison of the 31P spectra with those obtained on poly(dG-m5dC) allow assignment of the lower field resonances to GpC in the Z conformation.

摘要

已通过500兆赫的1H核磁共振在重水（0.1M氯化钠）以及重水/氘代甲醇混合物中对脱氧核糖六核苷五磷酸（m5dC-dG）3进行了研究。在甲醇溶液中检测到了两种在核磁共振时间尺度上处于缓慢平衡状态的构象。二维核Overhauser效应（NOE）实验用于确定碱基以及许多糖的共振信号，并确定两种构象的结构特征。结果与B-DNA和Z-DNA在溶液中的平衡状态一致。在低盐重水溶液中，大多数分子具有B-DNA结构，而在高甲醇浓度下则具有Z-DNA结构。对于Z-DNA，观察到相邻胞嘧啶上甲基之间的跨链NOE，而B-DNA则没有。在低甲醇浓度下，B-DNA构象占主导地位，并且随着温度升高而稳定，而在高甲醇浓度和低温下，Z-DNA构象占主导地位。31P核磁共振谱给出的结果与1H核磁共振得到的结果一致。将31P谱与在聚（dG-m5dC）上获得的谱进行比较，可以将较低场的共振信号归属于Z构象中的GpC。

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