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近零电子伏特电子附着于嘧啶核苷酸所诱导的DNA链断裂。

DNA strand breaks induced by near-zero-electronvolt electron attachment to pyrimidine nucleotides.

作者信息

Bao Xiaoguang, Wang Jing, Gu Jiande, Leszczynski Jerzy

机构信息

Drug Design and Discovery Center, State Key Laboratory of Drug Research, Shanghai Institute of Materia Medica, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 201203, People's Republic of China.

出版信息

Proc Natl Acad Sci U S A. 2006 Apr 11;103(15):5658-63. doi: 10.1073/pnas.0510406103. Epub 2006 Apr 3.

DOI:10.1073/pnas.0510406103
PMID:16585526
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1458629/
Abstract

To elucidate the mechanism of DNA strand breaks by low-energy electrons (LEE), theoretical investigations of the LEE attachment-induced C(5')-O(5') sigma bond breaking of pyrimidine nucleotides (5'-dCMPH and 5'-dTMPH) were performed by using the B3LYP/DZP++ approach. The results indicate that the pyrimidine nucleotides are able to capture electrons characterized by near-0-eV energy to form electronically stable radical anions in both the gas phase and aqueous solution. The mechanism of the LEE-induced single-strand bond breaking in DNA might involve the attachment of an electron to the bases of DNA and the formation of base-centered radical anions in the first step. Subsequently, these radical anions undergo either C-O or glycosidic bond breaking, yielding neutral ribose radical fragments and the corresponding phosphoric anions or base anions. The C-O bond cleavage is expected to dominate because of its low activation energy. In aqueous solutions, the significant increases in the electron affinities of pyrimidine nucleotides ensure the formation of electronically more stable radical anions of the nucleotides. The low activation energy barriers for the C(5')-O(5') bond breaking predicted in this work are relevant when the counterions are close enough to the phosphate moiety of DNA.

摘要

为阐明低能电子(LEE)导致DNA链断裂的机制,采用B3LYP/DZP++方法对LEE附着诱导嘧啶核苷酸(5'-dCMPH和5'-dTMPH)的C(5')-O(5') σ键断裂进行了理论研究。结果表明,嘧啶核苷酸能够捕获能量接近0 eV的电子,在气相和水溶液中形成电子稳定的自由基阴离子。LEE诱导DNA单链键断裂的机制可能首先涉及电子附着到DNA碱基上并形成碱基中心自由基阴离子。随后,这些自由基阴离子发生C-O键或糖苷键断裂,产生中性核糖自由基片段以及相应的磷酸阴离子或碱基阴离子。由于C-O键的活化能较低,预计C-O键断裂占主导。在水溶液中,嘧啶核苷酸电子亲和力的显著增加确保了核苷酸形成电子更稳定的自由基阴离子。当抗衡离子与DNA的磷酸部分足够接近时,本工作预测的C(5')-O(5')键断裂的低活化能垒具有相关性。

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