Влияние структурной организации нуклеиновых кислот на взаимодействие с гипохлоритом: АТФP, PolyA и ДНК

Оптика и спектроскопия Pub Date : 2023-01-01 DOI:10.21883/os.2023.06.55922.113-23

Евгения Борисовна Морошкина, Д.Н. Осинникова, К.И. Павлова, А. М. Поляничко

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Abstract

The action of hypochlorite on various biological molecules in a living cell has been actively studied for years. However, the influence of the structural organization of nucleic acids on their interaction with hypochlorite remains underinvestigated. In this work, using ultraviolet and infrared spectroscopy, we analyzed the effect of the structure of nucleic acids on the reaction with hypochlorite using the example of the three most common and biologically significant types of nucleic acids (NA): double-stranded DNA in the B-form, single-stranded RNA, and nucleotide phosphates. It was found that the rate of the initial stage of the reaction of hypochlorite with endocyclic nitrogen atoms depends on the presence/absence of base pairing in the NA structure. At the same time, the polymeric structure of NC significantly accelerates and increases the efficiency of the subsequent stages of the reaction associated with the chlorination of exocyclic nitrogen atoms and the destruction of the ring structure of nitrogenous bases.

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核酸结构组织对低氯酸盐作用的影响:atp、PolyA和dna

多年来，人们一直在积极研究次氯酸盐对活细胞中各种生物分子的作用。然而，核酸的结构组织对其与次氯酸盐相互作用的影响仍未得到充分研究。在这项工作中，我们利用紫外和红外光谱分析了核酸结构对与次氯酸盐反应的影响，并以三种最常见和生物意义重大的核酸(NA)为例:b型双链DNA、单链RNA和核苷酸磷酸盐。研究发现，次氯酸盐与内环氮原子反应初始阶段的速率取决于NA结构中碱基对的存在与否。同时，NC的聚合物结构显著加速和提高了后续阶段的反应效率，这些反应涉及到外环氮原子的氯化和氮基环结构的破坏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Оптика и спектроскопия

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