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DNA聚合酶ν能快速绕过O-甲基-dG,但不能绕过O-[4-(3-吡啶基)-4-氧代丁基]-dG和O-烷基-dT。

DNA Polymerase ν Rapidly Bypasses O-Methyl-dG but Not O-[4-(3-Pyridyl)-4-oxobutyl-dG and O-Alkyl-dTs.

作者信息

Gowda A S Prakasha, Spratt Thomas E

机构信息

Department of Biochemistry and Molecular Biology, Penn State College of Medicine, Pennsylvania State University , Hershey, Pennsylvania 17033, United States.

出版信息

Chem Res Toxicol. 2016 Nov 21;29(11):1894-1900. doi: 10.1021/acs.chemrestox.6b00318. Epub 2016 Oct 25.

DOI:10.1021/acs.chemrestox.6b00318
PMID:27741574
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5673091/
Abstract

4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is a potent tobacco carcinogen that forms mutagenic DNA adducts including O-methyl-2'-deoxyguanosine (O-Me-dG), O-[4-(3-pyridyl)-4-oxobut-1-yl]-dG (O-POB-dG), O-methylthymidine (O-Me-dT), and O-POB-dT. We evaluated the ability of human DNA polymerase ν to bypass this damage to evaluate the structural constraints on substrates for pol ν and to evaluate if there is kinetic evidence suggesting the in vivo activity of pol ν on tobacco-induced DNA damage. Presteady-state kinetic analysis has indicated that O-Me-dG is a good substrate for pol ν, while O-POB-dG and the O-alkyl-dT adducts are poor substrates for pol ν. The reactivity with O-Me-dG is high with a preference for dCTP > dGTP > dATP > dTTP. The catalytic activity of pol ν toward O-Me-dG is high and can potentially be involved in its bypass in vivo. In contrast, pol ν is unlikely to bypass O-POB-dG or the O-alkyl-dTs in vivo.

摘要

4-(甲基亚硝基氨基)-1-(3-吡啶基)-1-丁酮(NNK)是一种强效烟草致癌物,可形成诱变DNA加合物,包括O-甲基-2'-脱氧鸟苷(O-Me-dG)、O-[4-(3-吡啶基)-4-氧代丁-1-基]-dG(O-POB-dG)、O-甲基胸苷(O-Me-dT)和O-POB-dT。我们评估了人类DNA聚合酶ν绕过这种损伤的能力,以评估对pol ν底物的结构限制,并评估是否有动力学证据表明pol ν在烟草诱导的DNA损伤上具有体内活性。稳态前动力学分析表明,O-Me-dG是pol ν的良好底物,而O-POB-dG和O-烷基-dT加合物是pol ν的不良底物。与O-Me-dG的反应性很高,优先选择dCTP > dGTP > dATP > dTTP。pol ν对O-Me-dG的催化活性很高,可能参与其体内绕过过程。相比之下,pol ν不太可能在体内绕过O-POB-dG或O-烷基-dT。

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DNA Repair (Amst). 2015 Nov;35:63-70. doi: 10.1016/j.dnarep.2015.09.023. Epub 2015 Sep 21.
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Mechanistic Basis for the Bypass of a Bulky DNA Adduct Catalyzed by a Y-Family DNA Polymerase.
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