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DNA 损伤的热力学特征:具有 5-羟甲基-2'-脱氧胞嘧啶·2'-脱氧鸟嘌呤碱基对的 DNA 的表征。

Thermodynamic signature of DNA damage: characterization of DNA with a 5-hydroxy-2'-deoxycytidine·2'-deoxyguanosine base pair.

机构信息

Department of Pharmaceutical Sciences, University of Pittsburgh, Pittsburgh, Pennsylvania 15261, United States.

出版信息

Biochemistry. 2012 Mar 6;51(9):2018-27. doi: 10.1021/bi3000269. Epub 2012 Feb 24.

DOI:10.1021/bi3000269
PMID:22332945
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3319050/
Abstract

Oxidation of DNA due to exposure to reactive oxygen species is a major source of DNA damage. One of the oxidation lesions formed, 5-hydroxy-2'-deoxycytidine, has been shown to miscode by some replicative DNA polymerases but not by error prone polymerases capable of translesion synthesis. The 5-hydroxy-2'-deoxycytidine lesion is repaired by DNA glycosylases that require the 5-hydroxycytidine base to be extrahelical so it can enter into the enzyme's active site where it is excised off the DNA backbone to afford an abasic site. The thermodynamic and nuclear magnetic resonance results presented here describe the effect of a 5-hydroxy-2'-deoxycytidine·2'-deoxyguanosine base pair on the stability of two different DNA duplexes. The results demonstrate that the lesion is highly destabilizing and that the energy barrier for the unstacking of 5-hydroxy-2'-deoxycytidine from the DNA duplex may be low. This could provide a thermodynamic mode of adduct identification by DNA glycosylases that requires the lesion to be extrahelical.

摘要

由于暴露于活性氧物种,DNA 的氧化是 DNA 损伤的主要来源。已经表明,形成的氧化损伤之一,5-羟基-2'-脱氧胞苷,被一些复制 DNA 聚合酶错误编码,但不能被能够进行跨损伤合成的易错聚合酶错误编码。DNA 糖苷酶修复 5-羟基-2'-脱氧胞苷损伤,需要 5-羟胞嘧啶碱基处于非螺旋状态,以便进入酶的活性位点,在那里将其从 DNA 主链上切除,形成无碱基位点。本文介绍的热力学和核磁共振结果描述了 5-羟基-2'-脱氧胞苷·2'-脱氧鸟苷碱基对两种不同 DNA 双链体稳定性的影响。结果表明,损伤具有高度不稳定性,5-羟基-2'-脱氧胞苷从 DNA 双链体解旋的能垒可能较低。这可能为 DNA 糖苷酶提供了一种识别加合物的热力学模式,需要损伤处于非螺旋状态。

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