碱基错配 DNA 中的骨架构象平衡与酶活性相关。

Backbone Conformational Equilibrium in Mismatched DNA Correlates with Enzyme Activity.

机构信息

Biophysics Program, University of Michigan, 930 N. University Avenue, Ann Arbor, Michigan 48109, United States.

Department of Chemistry and Biochemistry, Missouri State University, 901 S. National Ave., Springfield, Missouri 65897, United States.

出版信息

Biochemistry. 2023 Oct 3;62(19):2816-2827. doi: 10.1021/acs.biochem.3c00230. Epub 2023 Sep 12.

DOI:10.1021/acs.biochem.3c00230

PMID:37699121

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10552547/

Abstract

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G mismatches in mammals arise primarily from the deamination of methylated CpG sites or the incorporation of improper nucleotides. The process by which repair enzymes such as thymine DNA glycosylase (TDG) identify a canonical DNA base in the incorrect pairing context remains a mystery. However, the abundant contacts of the repair enzymes with the DNA backbone suggest a role for protein-phosphate interaction in the recognition and repair processes, where conformational properties may facilitate the proper interactions. We have previously used P NMR to investigate the energetics of DNA backbone BI-BII interconversion and the effect of a mismatch or lesion compared to canonical DNA and found stepwise differences in Δ of 1-2 kcal/mol greater than equivalent steps in unmodified DNA. We have currently compared our results to substrate dependence for TDG, MBD4, M. , and CEBPβ, testing for correlations to sequence and base-pair dependence. We found strong correlations of our DNA phosphate backbone equilibrium () to different enzyme kinetics or binding parameters of these varied enzymes, suggesting that the backbone equilibrium may play an important role in mismatch recognition and/or conformational rearrangement and energetics during nucleotide flipping or other aspects of enzyme interrogation of the DNA substrate.

摘要

在哺乳动物中，T:G 错配主要来源于甲基化 CpG 位点的脱氨作用或不合适核苷酸的掺入。修复酶（如胸腺嘧啶 DNA 糖基化酶（TDG））识别不正确配对环境中规范碱基的过程仍然是一个谜。然而，修复酶与 DNA 骨架的大量接触表明，蛋白质-磷酸相互作用在识别和修复过程中起作用，其中构象特性可能有助于正确的相互作用。我们之前使用 P NMR 研究了 DNA 骨架 BI-BII 互变的能量学以及与规范 DNA 相比的错配或损伤的影响，发现与未修饰 DNA 中等效步骤相比，Δ值逐步增加 1-2 kcal/mol。我们目前将我们的结果与 TDG、MBD4、M. 和 CEBPβ 的底物依赖性进行了比较，测试了与序列和碱基对依赖性的相关性。我们发现我们的 DNA 磷酸骨架平衡（）与这些不同酶的不同酶动力学或结合参数之间存在很强的相关性，这表明骨架平衡可能在错配识别和/或核苷酸翻转或其他方面的构象重排和能量学中发挥重要作用酶对 DNA 底物的探究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f3c6/10552547/c6a5451e1746/bi3c00230_0002.jpg

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碱基错配 DNA 中的骨架构象平衡与酶活性相关。

Backbone Conformational Equilibrium in Mismatched DNA Correlates with Enzyme Activity.

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