预测蛋白质配体相互作用的对接策略及其在基于结构的药物设计中的应用。

IF 0.6 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Communications in Information and Systems Pub Date : 2024-01-01 Epub Date: 2024-10-21 DOI:10.4310/cis.241021221101
Zhiwei Ma, Abeeb Ajibade, Xiaoqin Zou
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引用次数: 0

摘要

分子对接是计算机辅助药物设计(CADD)领域的一个关键要素,不断推动着药物研究的进步。从本质上讲,它利用计算机算法来确定两个分子之间的 "最佳 "匹配,就像解决复杂的三维拼图一样。在更严格的层面上,分子对接挑战需要根据两个分子的原子坐标预测准确的结合状态。这一过程对于揭示原子尺度上错综复杂的物理化学相互作用机理具有特别重要的意义。值得注意的是,鉴于小化合物作为候选药物的普遍使用,对接的应用,尤其是在蛋白质-小分子相互作用方面的应用,对基于结构的药物设计具有广泛的影响。本研究概述了对接方法,深入探讨了近期的主要发展,阐明了蛋白质-配体相互作用中分子识别的物理化学基础,最后讨论了对接在虚拟筛选中的应用以及现有对接方法面临的挑战。
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Docking strategies for predicting protein-ligand interactions and their application to structure-based drug design.

Molecular docking stands as a pivotal element in the realm of computer-aided drug design (CADD), consistently contributing to advancements in pharmaceutical research. In essence, it employs computer algorithms to identify the "best" match between two molecules, akin to solving intricate three-dimensional jigsaw puzzles. At a more stringent level, the molecular docking challenge entails predicting the accurate bound association state based on the atomic coordinates of two molecules. This process assumes particular significance in unraveling the mechanistic intricacies of physicochemical interactions at the atomic scale. Notably, the application of docking, especially in the context of protein-small molecule interactions, holds wide-ranging implications for structure-based drug design, given the prevalent use of small compounds as drug candidates. This study provides an overview of docking methodologies, delves into recent key developments, elucidates the physicochemical underpinnings of molecular recognition in protein-ligand interactions, and concludes by addressing the applications of docking in virtual screening, alongside current challenges within existing docking methods.

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来源期刊
Communications in Information and Systems
Communications in Information and Systems COMPUTER SCIENCE, INFORMATION SYSTEMS-
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