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在(HO)ₙ(n = 0 - 6)团簇存在的情况下,半胱氨酸与锂和氟化锂的相互作用。

Interaction of Cysteine with Li and LiF in the Presence of (HO) ( = 0-6) Clusters.

作者信息

Lu Liang, Li Ren-Zhong, Xu Xiao-Yang

机构信息

School of Environmental and Chemical Engineering, Xi'an Polytechnic University, Xi'an 710048, PR China.

出版信息

ACS Omega. 2022 May 27;7(22):18646-18659. doi: 10.1021/acsomega.2c01315. eCollection 2022 Jun 7.

DOI:10.1021/acsomega.2c01315
PMID:35694486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9178773/
Abstract

The interaction between cysteine with Li and LiF in the microcosmic water environment was investigated to elucidate how ions interact with amino acids and the cation-anion correlation effect involved. The structures of Cys·Li(HO) and Cys·LiF(HO) ( = 0-6) were characterized using ab initio calculations. Our studies show that the water preferentially interacts with Li/LiF. In Cys·Li(HO), Li interacts with amino nitrogen, carbonyl oxygen, and hydrophobic sulfur of Cys to form a tridentate mode, whereas in Cys·LiF(HO) , Li and F work in cooperation and interact with carbonyl oxygen and hydroxyl hydrogen of Cys to form a bidentate type. The neutral and zwitterionic forms are essentially isoenergetic when the water number reaches three in the presence of Li, whereas this occurs at four water molecules in the presence of LiF. Further research revealed that the interaction between Li/LiF and Cys was mainly electrostatic, followed by dispersion, and the weakest interaction occurs at the transition from the neutral form to zwitterionic form. Natural population analysis charge analyses show that for Cys·Li(HO) , the positive charge is mostly concentrated on Li except for the system containing three water molecules. For Cys·LiF(HO) , the positive charge is centered on the LiF unit in the range = 0-6, and at = 5, electron transfer from Cys to water occurs. Our study shows that the contribution of anions in zwitterionic state stabilization should be addressed more generally along with cations.

摘要

研究了半胱氨酸与锂和氟化锂在微观水环境中的相互作用,以阐明离子如何与氨基酸相互作用以及其中涉及的阳离子 - 阴离子相关效应。使用从头算计算对Cys·Li(HO) 和Cys·LiF(HO) ( = 0 - 6)的结构进行了表征。我们的研究表明,水优先与锂/氟化锂相互作用。在Cys·Li(HO) 中,锂与半胱氨酸的氨基氮、羰基氧和疏水性硫相互作用形成三齿模式,而在Cys·LiF(HO) 中,锂和氟协同作用,与半胱氨酸的羰基氧和羟基氢相互作用形成双齿类型。当存在锂时,水分子数达到三个时,中性和两性离子形式基本上能量相等,而存在氟化锂时,这发生在四个水分子时。进一步的研究表明,锂/氟化锂与半胱氨酸之间的相互作用主要是静电作用,其次是色散作用,最弱的相互作用发生在从中性形式向两性离子形式的转变处。自然布居分析电荷分析表明,对于Cys·Li(HO) ,除了含有三个水分子的体系外,正电荷大多集中在锂上。对于Cys·LiF(HO) 而言,在 = 0 - 6范围内,正电荷集中在LiF单元上,在 = 5时,发生从半胱氨酸到水的电子转移。我们的研究表明,两性离子状态稳定化中阴离子的贡献应与阳离子一起更全面地加以探讨。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca8d/9178773/7ac233995738/ao2c01315_0012.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca8d/9178773/7ac233995738/ao2c01315_0012.jpg

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