防晒成分与核苷酸碱基相互作用的量子力学研究。

Quantum mechanical study of interactions between sunscreen ingredients and nucleotide bases.

机构信息

Department of Chemistry, Clemson University, Clemson, SC, USA.

出版信息

J Mol Model. 2022 Aug 4;28(9):243. doi: 10.1007/s00894-022-05253-1.

Abstract

Interactions between the popular sunscreen ingredients oxybenzone and homosalate and DNA bases have been studied using density functional theory and ab initio methods. Low-energy structures for each sunscreen ingredient interacting with each nucleotide base in either a pi-stacked or hydrogen-bonded fashion were found. The binding energies are comparable to those for the Watson-Crick-Franklin Ade-Thy and Cyt-Gua pairs. Pi-stacked and hydrogen-bonded structures are comparable in energy, with hydrogen-bonded structures having a more negative counterpoise-corrected binding energy, while the final pi-stacked structures are lower in energy. This is due to a geometrical rearrangement required to form the hydrogen bonds that raise the total energy of the complex. It was also found that when using the M06-2X density functional, the STO-3G basis set favors hydrogen bonding, but 6-31G(d) and 6-31 + G(s) basis sets predict similar binding geometries.

摘要

使用密度泛函理论和从头计算方法研究了常用防晒霜成分氧苯酮和羟苯甲酮与 DNA 碱基的相互作用。发现了每种防晒霜成分与以 π 堆积或氢键方式相互作用的每个核苷酸碱基的低能结构。结合能与 Watson-Crick-Franklin Ade-Thy 和 Cyt-Gua 对相当。π 堆积和氢键结构的能量相当，氢键结构的对位校正结合能更负，而最终的 π 堆积结构的能量更低。这是由于形成氢键所需的几何重排会提高复合物的总能量。还发现，当使用 M06-2X 密度泛函时，STO-3G 基组有利于氢键，但 6-31G(d)和 6-31 + G(s)基组预测的结合几何形状相似。

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防晒成分与核苷酸碱基相互作用的量子力学研究。

Quantum mechanical study of interactions between sunscreen ingredients and nucleotide bases.

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