The role of dynamics in enzyme activity.

R M Daniel, R V Dunn, J L Finney, J C Smith
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引用次数: 312

Abstract

Although protein function is thought to depend on flexibility, precisely how the dynamics of the molecule and its environment contribute to catalytic mechanisms is unclear. We review experimental and computational work relating to enzyme dynamics and function, including the role of solvent. The evidence suggests that fast motions on the 100 ps timescale, and any motions coupled to these, are not required for enzyme function. Proteins where the function is electron transfer, proton tunneling, or ligand binding may have different dynamical dependencies from those for enzymes, and enzymes with large turnover numbers may have different dynamical dependencies from those that turn over more slowly. The timescale differences between the fastest anharmonic fluctuations and the barrier-crossing rate point to the need to develop methods to resolve the range of motions present in enzymes on different time- and lengthscales.

动力学在酶活性中的作用。
尽管人们认为蛋白质的功能依赖于灵活性,但分子动力学及其环境如何促进催化机制尚不清楚。我们回顾了与酶动力学和功能有关的实验和计算工作,包括溶剂的作用。有证据表明,在100ps时间尺度上的快速运动,以及任何与此相关的运动,都不是酶功能所必需的。功能是电子转移、质子隧穿或配体结合的蛋白质可能与酶具有不同的动力学依赖性,并且具有大量周转数量的酶可能与周转较慢的酶具有不同的动力学依赖性。最快的非调和波动和过障率之间的时间尺度差异表明,需要开发方法来解决酶在不同时间和长度尺度上的运动范围。
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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