DNA 中单电子氧化鸟嘌呤的强氧化性激发态：波长和 pH 值依赖性。

Highly oxidizing excited states of one-electron-oxidized guanine in DNA: wavelength and pH dependence.

机构信息

Department of Chemistry, Oakland University, Rochester, Michigan 48309, USA.

出版信息

J Am Chem Soc. 2011 Mar 30;133(12):4527-37. doi: 10.1021/ja110499a. Epub 2011 Mar 7.

DOI:10.1021/ja110499a

PMID:21381665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3063320/

Abstract

Excited states of one-electron-oxidized guanine in DNA are known to induce hole transfer to the sugar moiety and on deprotonation result in neutral sugar radicals that are precursors of DNA strand breaks. This work carried out in a homogeneous aqueous glass (7.5 M LiCl) at low temperatures (77-175 K) shows the extent of photoconversion of one-electron-oxidized guanine and the associated yields of individual sugar radicals are crucially controlled by the photon energy, protonation state, and strandedness of the oligomer. In addition to sugar radical formation, highly oxidizing excited states of one-electron-oxidized guanine are produced with 405 nm light at pH 5 and below that are able to oxidize chloride ion in the surrounding solution to form Cl(2)(•-) via an excited-state hole transfer process. Among the various DNA model systems studied in this work, the maximum amount of Cl(2)(•-) is produced with ds (double-stranded) DNA, where the one-electron-oxidized guanine exists in its cation radical form (G(•+):C). Thus, via excited-state hole transfer, the dsDNA is apparently able to protect itself from cation radical excited states by transfer of damage to the surrounding environment.

摘要

已知 DNA 中一个电子被氧化的鸟嘌呤的激发态会诱导空转移到糖部分，并在去质子化后产生中性糖自由基，这些自由基是 DNA 链断裂的前体。本工作在低温（77-175 K）下的均相水玻璃（7.5 M LiCl）中进行，结果表明，一个电子被氧化的鸟嘌呤的光转化程度以及各个糖自由基的生成率，关键受到光子能量、质子化状态和寡聚物的链状态的控制。除了糖自由基的形成外，在 pH 值为 5 及以下的条件下，用 405nm 光还会产生具有高度氧化性的一个电子被氧化的鸟嘌呤的激发态，这些激发态能够通过一个激发态空转移过程，将周围溶液中的氯离子氧化成 Cl(2)(•-)。在本工作研究的各种 DNA 模型系统中，在双链 DNA（dsDNA）中产生了最大量的 Cl(2)(•-)，其中一个电子被氧化的鸟嘌呤以正离子自由基形式（G(•+):C）存在。因此，通过激发态空转移，dsDNA 显然能够通过将损伤转移到周围环境中来保护自身免受正离子自由基激发态的影响。

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DFT calculations on the deprotonation site of the one-electron oxidised guanine-cytosine base pair.基于密度泛函理论对单电子氧化的鸟嘌呤-胞嘧啶碱基对的去质子化位置的计算。

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