Computational Study on the Conformational Preferences of Neutral, Protonated and Deprotonated Glycine Dimers

Compounds Pub Date : 2022-10-12 DOI:10.3390/compounds2040021
M. Pita, R. Mosquera
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引用次数: 0

Abstract

A conformational analysis has been carried out for monoprotonated, unprotonated and deprotonated glycine dimers in the gas phase and an aqueous solution. MP2/6-311++(d,p), B3LYP/6-311++(d,p) and M06/6-311++(d,p) optimizations were performed for more than 200 initial conformations comprising nonionic (COOH–CH2–NH2) (N) and zwitterionic (COO−–CH2–NH3+) (Z) structures for neutral monomers. All the methods indicate that Z monomers are preferred over N ones for the neutral and deprotonated dimers in aqueous solutions, whereas the reverse trend is observed in the gas phase (including also protonated dimers). NC and ZC structures coexist in aqueous solutions for the protonated glycine dimer. The preferred geometries are significantly different depending on the media and total dimer charge. Moreover, several minima display close energies in each series (media and total dimer charge). New conformers, not previously reported, are found to be significantly populated in those conformational mixtures. Dimers containing Z monomers are associated with larger absolute solvation energies and are more prone than N-containing ones to experience protonation and deprotonation in the gas phase, whereas the reverse trend is observed in the aqueous solution. The Quantum Theory of Atoms in Molecules (QTAIM) analysis reveals that uncharged dimers display trifling electron density transfer between monomers, whereas it is significant in anionic and cationic dimers.
中性、质子化和去质子化甘氨酸二聚体构象偏好的计算研究
对单质子化、非质子化和去质子化甘氨酸二聚体在气相和水溶液中的构象进行了分析。MP2/6-311++(d,p)、B3LYP/6-311++(d,p)和M06/6-311++(d,p)对中性单体的200多种初始构象进行了优化,包括非离子(COOH-CH2-NH2) (N)和两性离子(COO−-CH2-NH3 +) (Z)结构。结果表明,中性二聚体和去质子化二聚体在水溶液中表现为Z单体优于N单体,而在气相(也包括质子化二聚体)中表现为相反的趋势。质子化甘氨酸二聚体的NC和ZC结构在水溶液中共存。根据介质和总二聚体电荷的不同,优选的几何形状有显著的不同。此外,在每个系列(介质和总二聚体电荷)中,有几个最小值显示接近能量。新的构象,以前没有报道,被发现大量填充在这些构象混合物。含Z单体的二聚体具有更大的绝对溶剂化能,并且在气相中比含n单体的二聚体更容易发生质子化和去质子化,而在水溶液中则相反。分子中原子的量子理论(QTAIM)分析表明,不带电的二聚体在单体之间表现出微小的电子密度转移,而在阴离子和阳离子二聚体中则表现出显著的电子密度转移。
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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CiteScore
2.30
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0.00%
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