CHAPTER 28. Noncovalent Interactions in Biocatalysis – A Theoretical Perspective

G. Velmurugan, R. V. Solomon, Dhurairajan Senthilnathan, P. Venuvanalingam
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Abstract

Noncovalent interactions (NCIs) are Nature's choice for maintaining biological structure and carrying out many biological functions. These delicate forces become stronger and more specific when acting together. They were detected very early as short contacts in crystals or in gas-phase complexes but their systematic understanding is recent. Theoretical methods have greatly aided in understanding their nature and variety and this eventually led to their use in developing chemical, material, biological and technological applications. Recent developments in computer hardware and software have enabled scientists to probe the movements at the atomic level in the active site of complex biological systems and understand the biological processes. This chapter is devoted to explaining the role of NCIs in biocatalysis from a computational perspective. It first introduces the popular theoretical methods used to characterize NCIs and then explains the role of the three main NCIs, namely hydrogen bonding, halogen bonding and hydrophobic interactions, in biocatalysis through six case studies from the literature. The chapter ends with a summary and future directions of this topic.
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28章。生物催化中的非共价相互作用——一个理论视角
非共价相互作用(nci)是自然界维持生物结构和实现许多生物功能的选择。这些微妙的力量在共同作用时会变得更强、更具体。它们很早就被发现是晶体或气相配合物中的短接触,但它们的系统认识是最近才出现的。理论方法极大地帮助了人们理解它们的性质和多样性,并最终导致了它们在化学、材料、生物和技术应用方面的应用。计算机硬件和软件的最新发展使科学家们能够在复杂生物系统的活性部位探测原子水平上的运动,并了解生物过程。本章致力于从计算的角度解释NCIs在生物催化中的作用。首先介绍了表征NCIs的常用理论方法,然后通过文献中的六个案例分析,解释了三种主要的NCIs,即氢键、卤素键和疏水相互作用在生物催化中的作用。本章以本主题的总结和未来方向结束。
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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