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CCG 和 GGC 三核苷酸重复序列中得到的 DNA 和 RNA 双螺旋结构与动力学。

Structure and Dynamics of DNA and RNA Double Helices Obtained from the CCG and GGC Trinucleotide Repeats.

机构信息

Department of Physics , North Carolina State University , Raleigh , North Carolina 27695-8202 , United States.

出版信息

J Phys Chem B. 2018 Apr 26;122(16):4491-4512. doi: 10.1021/acs.jpcb.8b01658. Epub 2018 Apr 17.

DOI:10.1021/acs.jpcb.8b01658
PMID:29617130
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6475210/
Abstract

Expansions of both GGC and CCG sequences lead to a number of expandable, trinucleotide repeat (TR) neurodegenerative diseases. Understanding of these diseases involves, among other things, the structural characterization of the atypical DNA and RNA secondary structures. We have performed molecular dynamics simulations of (GCC) and (GGC) homoduplexes in order to characterize their conformations, stability, and dynamics. Each TR has two reading frames, which results in eight nonequivalent RNA/DNA homoduplexes, characterized by CpG or GpC steps between the Watson-Crick base pairs. Free energy maps for the eight homoduplexes indicate that the C-mismatches prefer anti-anti conformations, while G-mismatches prefer anti-syn conformations. Comparison between three modifications of the DNA AMBER force field shows good agreement for the mismatch free energy maps. The mismatches in DNA-GCC (but not CCG) are extrahelical, forming an extended e-motif. The mismatched duplexes exhibit characteristic sequence-dependent step twist, with strong variations in the G-rich sequences and the e-motif. The distribution of Na is highly localized around the mismatches, especially G-mismatches. In the e-motif, there is strong Na binding by two G(N7) atoms belonging to the pseudo GpC step created when cytosines are extruded and by extrahelical cytosines. Finally, we used a novel technique based on fast melting by means of an infrared laser pulse to classify the relative stability of the different DNA-CCG and -GGC homoduplexes.

摘要

GGC 和 CCG 序列的扩展导致了许多可扩展的三核苷酸重复(TR)神经退行性疾病。对这些疾病的理解涉及到对非典型 DNA 和 RNA 二级结构的结构特征的理解。我们已经对(GCC)和(GGC)同源双链体进行了分子动力学模拟,以表征它们的构象、稳定性和动力学。每个 TR 有两个阅读框,这导致了八种不等价的 RNA/DNA 同源双链体,其特征是在 Watson-Crick 碱基对之间有 CpG 或 GpC 步。八种同源双链体的自由能图谱表明,C 错配更喜欢反反构象,而 G 错配更喜欢反顺构象。对 DNA AMBER 力场的三种修饰进行比较表明,错配自由能图谱的吻合度很好。DNA-GCC(而不是 CCG)中的错配是外螺旋的,形成一个扩展的 e-基序。错配的双链体表现出特征性的序列依赖性的步扭,在富含 G 的序列和 e-基序中存在强烈的变化。Na 的分布高度集中在错配处,特别是 G 错配处。在 e-基序中,两个 G(N7)原子通过与外螺旋的胞嘧啶形成的拟 GpC 步强烈结合 Na,胞嘧啶被挤出。最后,我们使用了一种基于红外激光脉冲快速熔化的新技术来对不同的 DNA-CCG 和 -GGC 同源双链体的相对稳定性进行分类。

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