A Workflow to Create a High-Quality Protein-Ligand Binding Dataset for Training, Validation, and Prediction Tasks.

ArXiv Pub Date : 2025-03-07

Yingze Wang, Kunyang Sun, Jie Li, Xingyi Guan, Oufan Zhang, Dorian Bagni, Yang Zhang, Heather A Carlson, Teresa Head-Gordon

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Abstract

Development of scoring functions (SFs) used to predict protein-ligand binding energies requires high-quality 3D structures and binding assay data for training and testing their parameters. In this work, we show that one of the widely-used datasets, PDBbind, suffers from several common structural artifacts of both proteins and ligands, which may compromise the accuracy, reliability, and generalizability of the resulting SFs. Therefore, we have developed a series of algorithms organized in a semi-automated workflow, HiQBind-WF, that curates non-covalent protein-ligand datasets to fix these problems. We also used this workflow to create an independent data set, HiQBind, by matching binding free energies from various sources including BioLiP, Binding MOAD and BindingDB with co-crystalized ligand-protein complexes from the PDB. The resulting HiQBind workflow and dataset are designed to ensure reproducibility and to minimize human intervention, while also being open-source to foster transparency in the improvements made to this important resource for the biology and drug discovery communities.

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为训练、验证和预测任务创建高质量蛋白质配体结合数据集的工作流程。

用于预测蛋白质配体结合能的评分函数（sf）的开发需要高质量的3D结构和结合分析数据来训练和测试其参数。在这项工作中，我们表明，广泛使用的数据集之一PDBbind受到蛋白质和配体的几种常见结构伪像的影响，这可能会损害所得SFs的准确性、可靠性和通用性。因此，我们开发了一系列算法，组织在一个半自动化的工作流程中，HiQBind-WF，管理非共价蛋白质配体数据集来解决这些问题。我们还使用该工作流程创建了一个独立的数据集HiQBind，通过将来自BioLiP、binding MOAD和BindingDB的结合自由能与来自PDB的共结晶配体-蛋白复合物进行匹配。由此产生的HiQBind工作流程和数据集旨在确保可重复性并最大限度地减少人为干预，同时也是开源的，以促进对生物学和药物发现界这一重要资源的改进的透明度。

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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