甲硫氨酸合酶催化同型半胱氨酸转化为甲硫氨酸的密度泛函研究。

Conversion of homocysteine to methionine by methionine synthase: a density functional study.

作者信息

Jensen Kasper P, Ryde Ulf

机构信息

Department of Theoretical Chemistry, Chemical Center, Lund University, P.O. Box 124, S-221 00 Lund, Sweden.

出版信息

J Am Chem Soc. 2003 Nov 19;125(46):13970-1. doi: 10.1021/ja034697a.

DOI:10.1021/ja034697a

PMID:14611228

Abstract

This communication reports a theoretical study of the conversion of homocysteine to methionine by methionine synthase. The reaction pathway is based on density functional calculations with large basis sets, including thermodynamic, relativistic, and solvent effects. We find that the suggested SN2 mechanism explains well the experimentally observed reaction rate. The results show that the reaction is highly polar, as reflected in the change of charge density along the reaction coordinate. It is enhanced in the protein by two effects: deprotonation of the bound substrate and desolvation of substrate and cofactor in the rate-determining step.

摘要

本通讯报道了对甲硫氨酸合酶将同型半胱氨酸转化为甲硫氨酸的理论研究。反应途径基于使用大基组的密度泛函计算，包括热力学、相对论和溶剂效应。我们发现所提出的SN2机制很好地解释了实验观察到的反应速率。结果表明，该反应具有高度极性，这反映在沿反应坐标的电荷密度变化上。在蛋白质中，该反应通过两种效应得到增强：结合底物的去质子化以及在速率决定步骤中底物和辅因子的去溶剂化。

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甲硫氨酸合酶催化同型半胱氨酸转化为甲硫氨酸的密度泛函研究。

Conversion of homocysteine to methionine by methionine synthase: a density functional study.

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