从炼金受体跳跃和交换自由能计算分析结合选择性。

IF 2.8 2区 化学 Q3 CHEMISTRY, PHYSICAL The Journal of Physical Chemistry B Pub Date : 2024-10-29 DOI:10.1021/acs.jpcb.4c05732
Solmaz Azimi, Emilio Gallicchio
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引用次数: 0

摘要

我们提出了基于炼金术转移法(ATM)的受体跳跃和受体交换自由能估算协议,以模拟一组配体与两个任意受体的结合选择性。在受体跳跃协议中,配体在一次模拟中从一个受体炼金转移到另一个受体,直接得出配体对两个受体的结合选择性自由能(BSFE),即两个单独的结合自由能之差。在受体交换协议中,一对配体中的第一配体从一个受体转移到另一个受体,而第二配体同时向相反方向转移。受体交换自由能得出一组配体的结合选择性自由能的差异,使用广义 DiffNet 算法将这些差异结合起来,就得出了配体的结合选择性自由能。我们在主客体系统上测试了这些算法,结果表明它们得出的结果与实验数据一致,并且与传统方法得出的绝对和相对结合自由能的差异一致。初步应用于分子片段与胰蛋白酶和凝血酶丝氨酸蛋白酶结合的选择性分析,证实了受体交换技术在基于结构的药物发现中的潜力。这项研究提出的新方法是简化配体选择性优化方案的第一步,计算效率高,适用于突变体和同源蛋白之间的配体选择性优化。
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Binding Selectivity Analysis from Alchemical Receptor Hopping and Swapping Free Energy Calculations.

We present receptor hopping and receptor swapping free energy estimation protocols based on the Alchemical Transfer Method (ATM) to model the binding selectivity of a set of ligands to two arbitrary receptors. The receptor hopping protocol, where a ligand is alchemically transferred from one receptor to another in one simulation, directly yields the ligand's binding selectivity free energy (BSFE) for the two receptors, which is the difference between the two individual binding free energies. In the receptor swapping protocol, the first ligand of a pair is transferred from one receptor to another while the second ligand is simultaneously transferred in the opposite direction. The receptor swapping free energy yields the differences in binding selectivity free energies of a set of ligands, which, when combined using a generalized DiffNet algorithm, yield the binding selectivity free energies of the ligands. We test these algorithms on host-guest systems and show that they yield results that agree with experimental data and are consistent with differences in absolute and relative binding free energies obtained by conventional methods. Preliminary applications to the selectivity analysis of molecular fragments binding to the trypsin and thrombin serine protease confirm the potential of the receptor swapping technology in structure-based drug discovery. The novel methodologies presented in this work are a first step toward streamlined and computationally efficient protocols for ligand selectivity optimization between mutants and homologous proteins.

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来源期刊
CiteScore
5.80
自引率
9.10%
发文量
965
审稿时长
1.6 months
期刊介绍: An essential criterion for acceptance of research articles in the journal is that they provide new physical insight. Please refer to the New Physical Insights virtual issue on what constitutes new physical insight. Manuscripts that are essentially reporting data or applications of data are, in general, not suitable for publication in JPC B.
期刊最新文献
Binding Selectivity Analysis from Alchemical Receptor Hopping and Swapping Free Energy Calculations. Accuracy and Reproducibility of Lipari-Szabo Order Parameters From Molecular Dynamics. Coarse-Grained MD Simulations of the Capillary Interaction between a Sphere and a Binary Fluid with Truncated Lennard-Jones Potentials. Temperature Dependence of Hydrotropy. Preferential Binding of Cations Modulates Electrostatically Driven Protein Aggregation and Disaggregation.
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