Density Functional Study of the Structure of Guanine Octets in Aqueous Medium

Mykola M. Ilchenko, I. Dubey
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引用次数: 3

Abstract

The structures and energies of guanine quartets and octets in water were determined by DFT (Density Functional Theory) calculations using M06-2X functional and 6-31G(d, p) basic set. Guanine quartets in vacuum were found to have not only the Hoogsteen or bifurcated, but also mixed system of hydrogen bonds; in water the latter two forms are transformed into the classic Hoogsteen-type structure. Four stable configurations of G-octets with D4, C4 and S4 symmetry formed by the pairs of guanine quartets with Hoogsteen, bifurcated or mixed system of H-bonds were identified. The most advantageous structure of the G-octet molecular system in aqueous medium was shown to be S4-symmetric structure consisting of the pair of mixed Hoogsteen-bifurcated type G-quartets
水介质中鸟嘌呤八元结构的密度功能研究
利用M06-2X泛函和6-31G(d, p)基集,采用密度泛函理论(DFT)计算确定了水中鸟嘌呤四元和八元的结构和能量。在真空中发现鸟嘌呤四重奏不仅有Hoogsteen或分叉,而且有混合氢键体系;在水中,后两种形式转化为经典的hoogsteen型结构。鸟嘌呤四元对与Hoogsteen、分叉或混合氢键体系形成4种D4、C4和S4对称的g -八元构型。在水介质中g -八隅体分子体系最有利的结构是由一对混合hoogsteen分叉型g -四隅体组成的s4对称结构
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