Ana G. Sánchez, Deborah J. Keszenman, R. Daniel Peluffo
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引用次数: 0
Abstract
Nitro-oxidative stress affects DNA, leading to special chemical modifications of nucleobases and deoxyribose, impacting DNA integrity and stability. Because of the importance of the topic, the state of the knowledge on purine, nucleoside, and DNA nitration by the reactive nitrogen species peroxynitrite was reviewed. Following a description of the chemical and physicochemical characteristics of purines and peroxynitrite, purine nitro-oxidation and its products, the reaction mechanisms, and the recently reported kinetic behavior of 8-NitroGua formation are discussed. Moreover, novel computational studies report structural and conformational DNA changes resulting from the formation of guanine nitration products. Given the relevance of the subject, surprisingly few publications deal with this topic, even considering the past five years.
硝基氧化应激会影响 DNA,导致核碱基和脱氧核糖发生特殊的化学修饰,从而影响 DNA 的完整性和稳定性。鉴于该主题的重要性,我们回顾了活性氮物种过氧化亚硝酸盐对嘌呤、核苷和 DNA 硝化作用的认识现状。在描述了嘌呤和过亚硝酸的化学和物理化学特征之后,讨论了嘌呤硝基氧化及其产物、反应机制以及最近报道的 8-NitroGua 形成的动力学行为。此外,新的计算研究报告了鸟嘌呤硝化产物的形成所导致的 DNA 结构和构象变化。鉴于该主题的相关性,即使考虑到过去五年的情况,涉及该主题的出版物也少得令人吃惊。
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