诱导极化影响DNA碱基翻转中的基本作用力。

Induced Polarization Influences the Fundamental Forces in DNA Base Flipping.

作者信息

Lemkul Justin A, Savelyev Alexey, MacKerell Alexander D

机构信息

Department of Pharmaceutical Sciences, School of Pharmacy, University of Maryland , 20 Penn Street, Baltimore, Maryland 21201, United States.

出版信息

J Phys Chem Lett. 2014 Jun 19;5(12):2077-2083. doi: 10.1021/jz5009517. Epub 2014 May 28.

DOI:10.1021/jz5009517

PMID:24976900

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4064933/

Abstract

Base flipping in DNA is an important process involved in genomic repair and epigenetic control of gene expression. The driving forces for these processes are not fully understood, especially in the context of the underlying dynamics of the DNA and solvent effects. We studied double-stranded DNA oligomers that have been previously characterized by imino proton exchange NMR using both additive and polarizable force fields. Our results highlight the importance of induced polarization on the base flipping process, yielding near-quantitative agreement with experimental measurements of the equilibrium between the base-paired and flipped states. Further, these simulations allow us to quantify for the first time the energetic implications of polarization on the flipping pathway. Free energy barriers to base flipping are reduced by changes in dipole moments of both the flipped bases that favor solvation of the bases in the open state and water molecules adjacent to the flipping base.

摘要

DNA中的碱基翻转是基因组修复和基因表达表观遗传控制中涉及的重要过程。这些过程的驱动力尚未完全了解，特别是在DNA潜在动力学和溶剂效应的背景下。我们研究了先前通过亚氨基质子交换核磁共振表征的双链DNA寡聚物，使用了加和力场和极化力场。我们的结果突出了诱导极化在碱基翻转过程中的重要性，与碱基配对状态和翻转状态之间平衡的实验测量结果达成了近乎定量的一致。此外，这些模拟使我们首次能够量化极化对翻转途径的能量影响。碱基翻转的自由能垒通过翻转碱基偶极矩的变化而降低，这些变化有利于开放状态下碱基的溶剂化以及与翻转碱基相邻的水分子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/11b2/4064933/3cc365fcf3fa/jz-2014-009517_0002.jpg

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诱导极化影响DNA碱基翻转中的基本作用力。

Induced Polarization Influences the Fundamental Forces in DNA Base Flipping.

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