Department of Synthesis and Chemical Technology of Pharmaceutical Substances with Computer Modeling Laboratory, Faculty of Pharmacy, Medical University of Lublin, Lublin, Poland.
Methods Mol Biol. 2024;2780:45-68. doi: 10.1007/978-1-0716-3985-6_4.
Proteins are the fundamental organic macromolecules in living systems that play a key role in a variety of biological functions including immunological detection, intracellular trafficking, and signal transduction. The docking of proteins has greatly advanced during recent decades and has become a crucial complement to experimental methods. Protein-protein docking is a helpful method for simulating protein complexes whose structures have not yet been solved experimentally. This chapter focuses on major search tactics along with various docking programs used in protein-protein docking algorithms, which include: direct search, exhaustive global search, local shape feature matching, randomized search, and broad category of post-docking approaches. As backbone flexibility predictions and interactions in high-resolution protein-protein docking remain important issues in the overall optimization context, we have put forward several methods and solutions used to handle backbone flexibility. In addition, various docking methods that are utilized for flexible backbone docking, including ATTRACT, FlexDock, FLIPDock, HADDOCK, RosettaDock, FiberDock, etc., along with their scoring functions, algorithms, advantages, and limitations are discussed. Moreover, what progress in search technology is expected, including not only the creation of new search algorithms but also the enhancement of existing ones, has been debated. As conformational flexibility is one of the most crucial factors affecting docking success, more work should be put into evaluating the conformational flexibility upon binding for a particular case in addition to developing new algorithms to replace the rigid body docking and scoring approach.
蛋白质是生命系统中的基本有机大分子,在多种生物功能中发挥着关键作用,包括免疫检测、细胞内运输和信号转导。近年来,蛋白质对接技术得到了极大的发展,并成为实验方法的重要补充。蛋白质-蛋白质对接是一种模拟实验尚未解决的蛋白质复合物结构的有用方法。本章重点介绍了主要的搜索策略以及蛋白质-蛋白质对接算法中使用的各种对接程序,包括:直接搜索、穷举全局搜索、局部形状特征匹配、随机搜索和广泛的对接后方法类别。由于在整体优化背景下,预测蛋白质-蛋白质对接的骨架灵活性和相互作用仍然是重要问题,因此我们提出了几种用于处理骨架灵活性的方法和解决方案。此外,还讨论了用于柔性骨架对接的各种对接方法,包括 ATTRACT、FlexDock、FLIPDock、HADDOCK、RosettaDock、FiberDock 等,以及它们的评分函数、算法、优点和局限性。此外,还讨论了预期的搜索技术进展,包括不仅要创建新的搜索算法,还要增强现有的搜索算法。由于构象灵活性是影响对接成功的最关键因素之一,因此除了开发新的算法来替代刚体对接和评分方法外,还应该投入更多的工作来评估特定情况下结合时的构象灵活性。
