辐照DNA的超快修复：鸟嘌呤-胞嘧啶光循环的非绝热从头算模拟

Ultrafast repair of irradiated DNA: nonadiabatic ab initio simulations of the guanine-cytosine photocycle.

作者信息

Markwick Phineus R L, Doltsinis Nikos L

机构信息

Institut de Biologie Structurale J.-P. Ebel, 41 Rue Jules Horowitz, 38027 Grenoble Cedex, France.

出版信息

J Chem Phys. 2007 May 7;126(17):175102. doi: 10.1063/1.2728897.

DOI:10.1063/1.2728897

PMID:17492887

Abstract

Nonadiabatic first-principles molecular dynamics simulations have been performed of the photoexcited Watson-Crick guanine-cytosine (GC) DNA base pair in the gas phase and in aqueous solution. An excited state coupled proton-electron transfer (CPET) from G to C along the central hydrogen bond is observed upon excitation of the pipi* state initially localized on G. In the resulting charge transfer state a conical intersection between the excited state and the ground state is easily accessible. Therefore radiationless decay is fast, of the order of 100 fs, followed by a rapid CPET back reaction retrieving the initial Watson-Crick structure. A detailed analysis of the mechanism of nonradiative decay suggests a biexponential behavior in which out-of-plane motion plays a special role for the longer decay component.

摘要

已对气相和水溶液中光激发的沃森-克里克鸟嘌呤-胞嘧啶（GC）DNA碱基对进行了非绝热第一性原理分子动力学模拟。当初始定域在鸟嘌呤（G）上的ππ*态被激发时，观察到沿着中心氢键从G到C的激发态耦合质子-电子转移（CPET）。在产生的电荷转移态中，激发态与基态之间的锥形交叉很容易达到。因此，无辐射衰变很快，约为100飞秒量级，随后是快速的CPET逆反应，恢复初始的沃森-克里克结构。对无辐射衰变机制的详细分析表明存在双指数行为，其中平面外运动对较长的衰变分量起特殊作用。

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辐照DNA的超快修复：鸟嘌呤-胞嘧啶光循环的非绝热从头算模拟

Ultrafast repair of irradiated DNA: nonadiabatic ab initio simulations of the guanine-cytosine photocycle.

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