Interaction of rivanol with molecules of deoxyribonucleic acid (DNA) sorbed onto nanocrystalline titania surface

O. Markitan, N. N. Vlasova, Y. Sheludko
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Abstract

Сreation of new therapeutic materials based on nucleic acids encourages the combination of the latter with materials capable of adsorbing them. One of the most promising materials for such purposes is nanocrystalline titanium dioxide due to its low toxicity, stability of its physical and chemical parameters, and high biocompatibility. Accordingly, understanding the nature of the interaction of the surface of titanium oxide with biologically active substances is a very important issue. It is also always a relevant question whether the biopolymer immobilized on the surface of a solid remains capable of serving as a reservoir for drug delivery or a tool for the treatment of a particular disease. The aim of the work was to investigate the interaction of the biologically active substance rivanol with the surface of DNA-containing titanium dioxide. It has been found that prior adsorption of deoxyribonucleic acid on the surface of titanium dioxide does not prevent its interaction with rivanol, which was confirmed by the methods of electron spectroscopy, atomic force and scanning electron microscopy. The mode of interaction of rivanol with deoxyribonucleic acid depends on the ratio of their concentrations and can be either intercalated or semi-intercalated, and electrostatic. Based on the calculated thermodynamic characteristics, the process of interaction of deoxyribonucleic acid adsorbed on the surface of a solid carrier is arbitrary and occurs by an ion exchange mechanism. These hybrid organo-mineral sorbents can serve as model structures for research in biotechnological fields, be used for the development of new methods of drug or gene delivery, reservoir systems at a molecular level, and serve as biocompatible carriers. The creation of organo-mineral sorbents, which combine nucleic acids and metal oxides, contributes to the stabilization of such systems and expands the scope of their possible application in medicine and biotechnology, increasing their target specificity.
大麻酚与吸附在纳米二氧化钛表面的脱氧核糖核酸分子的相互作用
Сreation基于核酸的新型治疗材料鼓励后者与能够吸附它们的材料的结合。纳米二氧化钛具有毒性低、物理化学参数稳定、生物相容性好等优点,是最有前途的材料之一。因此,了解氧化钛表面与生物活性物质相互作用的性质是一个非常重要的问题。固定在固体表面的生物聚合物是否仍然能够作为药物输送的储存库或治疗特定疾病的工具,也是一个相关的问题。本研究的目的是研究生物活性物质木酚与含dna的二氧化钛表面的相互作用。通过电子能谱、原子力和扫描电镜等方法证实,脱氧核糖核酸在二氧化钛表面的预先吸附并不妨碍其与利凡诺的相互作用。利凡诺与脱氧核糖核酸的相互作用方式取决于它们的浓度比,可以是插层的或半插层的,也可以是静电的。根据计算的热力学特性,脱氧核糖核酸吸附在固体载体表面的相互作用过程是任意的,是通过离子交换机制发生的。这些有机-矿物混合吸附剂可以作为生物技术领域研究的模型结构,用于开发药物或基因传递的新方法,在分子水平上的储集系统,并作为生物相容性载体。有机矿物吸附剂的创造,结合了核酸和金属氧化物,有助于稳定这些系统,扩大了它们在医学和生物技术方面的可能应用范围,增加了它们的目标特异性。
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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