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Asp分子手性对映体转变机理及水的催化作用
引用本文:乔朝阳,庄严,姜春旭,高峰,杨晓翠,王佐成. Asp分子手性对映体转变机理及水的催化作用[J]. 吉林大学学报(理学版), 2002, 57(4): 962-972
作者姓名:乔朝阳  庄严  姜春旭  高峰  杨晓翠  王佐成
作者单位:1. 白城师范学院 计算机科学学院, 吉林 白城 137000; 2. 白城师范学院 理论计算中心, 吉林 白城137000;3. 白城师范学院 传媒学院, 吉林 白城 137000; 4. 白城师范学院 物理与电子信息学院, 吉林 白城 137000
摘    要:用色散校正密度泛函WB97X D方法、 微扰理论的MP2方法和自洽反应场的SMD模型方法, 研究两种天冬氨酸(Asp)分子在优势反应通道的手性对映体转变、 水分子催化及溶剂效应. 结果表明: Asp分子经α 羧羟基、 β 羧羟基、 β 羧基和R 基旋转及质子从α 碳向氨基氮、 质子从氨基氮向α 碳和羧基内质子迁移的一系列过渡态, 实现了手性对映体转变, 并得到几种不同构型的旋光异构产物; 具有2条较强单氢键和2条中等强度单氢键的Asp分子在优势通道旋光异构的内禀能垒分别为258.5,253.8 kJ/mol, 均来自α 氢向氨基氮迁移的过渡态; 2个水分子簇的催化使其能垒分别降至133.3,134.3 kJ/mol, 水溶剂环境下分别降至106.3,107.8 kJ/mol. 表明水分子簇的催化可使Asp分子缓慢实现手性对映体转变, 水溶剂化效应可加快反应速度.

关 键 词:手性对映体   天冬氨酸   密度泛函理论   微扰理论   SMD模型   过渡态   溶剂效应  
收稿时间:2018-08-27

Mechanism of Chiral Enantiomer Transition ofAsp Molecule and Catalysis of Water
QIAO Chaoyang,ZHUANG Yan,JIANG Chunxu,GAO Feng,YANG Xiaocui,WANG Zuocheng. Mechanism of Chiral Enantiomer Transition ofAsp Molecule and Catalysis of Water[J]. Journal of Jilin University: Sci Ed, 2002, 57(4): 962-972
Authors:QIAO Chaoyang  ZHUANG Yan  JIANG Chunxu  GAO Feng  YANG Xiaocui  WANG Zuocheng
Affiliation:1. College of Computer Science, Baicheng Normal University, Baicheng 137000, Jilin Province, China;2. Theoretical Computing Center, Baicheng Normal University, Baicheng 137000, Jilin Province, China;3. College of Communication, Baicheng Normal University, Baicheng 137000, Jilin Province, China;4. College of Physics and Electronic Information, Baicheng Normal University, Baicheng 137000, Jilin Province, China
Abstract:Using the dispersion correction density functional WB97X D method, the MP2 method of perturbation theory and the SMD model method of self consistent reactionfield, we studied the chiral enantiomer transition of two aspartic acid (Asp) molecule in dominant reactionchannels, the catalysis and the solvent effect of water molecules. The results show that the chiral enantiomer transition is realized by a series of Asp transition states of the rotation of α carboxyhydroxyl, β carboxyhydroxyl, β carboxyl and R group and proton transport from α carbon to amino nitrogen, from amino nitrogen to α carbon and in carboxyl groups, and several kinds of optical isomerism products with different configurations are obtained. The intrinsic energy barriers of Asp molecules with two strong single hydrogen bonds and two moderate strength single hydrogen bonds in the dominant channel are 2585, 2538 kJ/mol,respectively, which are derived from the transition states of transfer of α hydrogen to amino nitrogen, and that are reduced to 133.3, 134.3 kJ/mol bythe catalysis of two water clusters, and to 106.3, 107.8 kJ/mol in water solvent environment, respectively.Therefore, the chiral enantiomer transition of Asp molecules can be realized slowly by the catalysis of watermolecular clusters, and the reaction rate can be accelerated by the water solvent effect.
Keywords:chiral enantiomer   aspartic acid   density functional theory   perturbation theory   SMD model   transition state   solvent effect
  
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