Issue 20, 2018, Issue in Progress

The influence of isolated and penta-hydrated Zn2+ on some of the intramolecular proton-transfer processes of thymine: a quantum chemical study

Abstract

Zinc cation (Zn2+) plays an important role in the chemistry of DNA base pairs. In this work, the influence of isolated and penta-hydrated Zn2+ on some of the intramolecular proton-transfer processes of thymine (T) is investigated by the density functional theory method. It is shown that the calculated binding energies between Zn2+ and T are exothermic in vacuum. Compared to T, Zn2+ increases the stability of tautomer T′ by 28.7 kcal mol−1, promoting the intramolecular proton transfer of T. But in a micro-water environment, the attachment processes of Zn2+ to T hydrates, penta-hydrated Zn2+ to T, and penta-hydrated Zn2+ to T hydrates lead to the rearrangement of molecules and the redistribution of charges. The conventional T is still the most stable form and the influence of Zn2+ is much reduced and the proton transfer is thermodynamically unfavored. The detailed characterization is helpful to understand the genotoxicity of zinc ions.

Graphical abstract: The influence of isolated and penta-hydrated Zn2+ on some of the intramolecular proton-transfer processes of thymine: a quantum chemical study

Supplementary files

Article information

Article type
Paper
Submitted
30 Dec 2017
Accepted
27 Feb 2018
First published
20 Mar 2018
This article is Open Access
Creative Commons BY license

RSC Adv., 2018,8, 11021-11026

The influence of isolated and penta-hydrated Zn2+ on some of the intramolecular proton-transfer processes of thymine: a quantum chemical study

D. Li, Y. Han, H. Li, P. Zhang, Q. Kang, Z. Li and D. Shen, RSC Adv., 2018, 8, 11021 DOI: 10.1039/C7RA13750H

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