Rate-promoting vibrations and coupled hydrogen-electron transfer reactions in the condensed phase: A model for enzymatic catalysis

Mincer JS.; Schwartz SD.

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Rate-promoting vibrations and coupled hydrogen-electron transfer reactions in the condensed phase: A model for enzymatic catalysis

机译：凝聚相中促进速率的振动和氢电子转移耦合反应：酶催化模型

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A model is presented for coupled hydrogen-electron transfer reactions in condensed phase in the presence of a rate promoting vibration. Large kinetic isotope effects (KIEs) are found when the hydrogen is substituted with deuterium. While these KIEs are essentially temperature independent, reaction rates do exhibit temperature dependence. These findings agree with recent experimental data for various enzyme-catalyzed reactions, such as the amine dehydrogenases and soybean lipoxygenase. Consistent with earlier results, turning off the promoting vibration results in an increased KIE. Increasing the barrier height increases the KIE, while increasing the rate of electron transfer decreases it. These results are discussed in light of other views of vibrationally enhanced tunneling in enzymes. (C) 2004 American Institute of Physics. [References: 51]

机译：提出了一种模型，用于在加速振动的速率下，在凝聚相中进行耦合的氢电子转移反应。当氢被氘取代时，会发现大的动力学同位素效应（KIEs）。尽管这些KIE本质上与温度无关，但反应速率确实显示出温度依赖性。这些发现与最近各种酶催化反应的实验数据相吻合，例如胺脱氢酶和大豆脂氧化酶。与早期结果一致，关闭促进振动会导致KIE增大。增加势垒高度会增加KIE，而增加电子传输速率会降低KIE。根据酶中振动增强隧穿的其他观点讨论了这些结果。（C）2004年美国物理研究所。 [参考：51]

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《The Journal of Chemical Physics》 |2004年第16期|共6页
作者
Mincer JS.; Schwartz SD.;
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Liver alcohol-dehydrogenase; Adiabatic evolution operators; Hydride transfer; Proton-transfer; Molecular-dynamics; Interaction representation; Methylamine dehydrogenase; Nonadiabatic corrections; Dihydrofolate-reductase; Computational method;

机译：肝醇脱氢酶;绝热演化算子;氢化物转移;质子转移;分子动力学;相互作用表示;甲胺脱氢酶;绝热校正;二氢叶酸还原酶;计算方法;

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1. Rate-promoting vibrations and coupled hydrogen-electron transfer reactions in the condensed phase: A model for enzymatic catalysis [J] . Mincer JS., Schwartz SD. The Journal of Chemical Physics . 2004,第16期

机译：凝聚相中促进速率的振动和氢电子转移耦合反应：酶催化模型
2. Flux-correlation approach to characterizing reaction pathways in quantum systems: a study of condensed-phase proton-coupled electron transfer [J] . Nandini Anantha amp, Thomas F. Miller IIIa* Molecular Physics:An International Journal at the Interface Between Chemistry and Physics . 2012,第9a10期

机译：通量相关方法表征量子系统中的反应路径：凝聚相质子耦合电子转移的研究
3. Flux-correlation approach to characterizing reaction pathways in quantum systems: A study of condensed-phase proton-coupled electron transfer [J] . Ananth N., Miller III T.F. Molecular physics . 2012,第9a10期

机译：通量相关方法表征量子系统中的反应路径：凝聚相质子耦合电子转移的研究
4. Development of QM/MM-based methods to investigate electron transfer reactions in condensed phases [C] . Hiroshi Nakano 日本化学会春季年会講演予稿集 . 2018

机译：基于QM / MM的方法的研制在凝聚相中探讨电子转移反应的方法
5. Theoretical investigation of proton-coupled electron transfer reactions in condensed phases. [D] . Iordanova, Nedialka I. 2003

机译：凝聚相中质子耦合电子转移反应的理论研究。
6. Enzymatic Catalysis of Proton Transfer and Decarboxylation Reactions [O] . John P. Richard -1

机译：质子转移和脱羧反应的酶催化
7. Flux-correlation approach to characterizing reaction pathways in quantum systems: a study of condensed-phase proton-coupled electron transfer [O] . Ananth Nandini, Miller Thomas F. III 2012

机译：通量相关方法表征量子系统中的反应路径：凝聚相质子耦合电子转移的研究
8. Dynamics, Energetics, and Structure of Microclusters: Elucidating the Physical Basis for Catalysis and Surface Chemistry, Reactions in Condensed Phases, and Aerosol Formation: Final Technical Report. [R] . Castleman, A. W. 1988

机译：动力学，能量学和微团簇的结构：阐明催化和表面化学的物理基础，凝聚阶段的反应和气溶胶形成：最终技术报告。

Rate-promoting vibrations and coupled hydrogen-electron transfer reactions in the condensed phase: A model for enzymatic catalysis

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