Modeling CAPRI Targets of Round 55 by Combining AlphaFold and Docking.

IF 2.8 4区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Proteins-Structure Function and Bioinformatics Pub Date : 2025-06-06 DOI:10.1002/prot.26853

Amar Singh, Matthew M Copeland, Petras J Kundrotas, Ilya A Vakser

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引用次数: 0

Abstract

In recent years, the field of structural biology has seen remarkable advancements, particularly in modeling of protein tertiary and quaternary structures. The AlphaFold deep learning approach revolutionized protein structure prediction by achieving near-experimental accuracy on many targets. This paper presents a detailed account of structural modeling of oligomeric targets in Round 55 of CAPRI by combining deep learning-based predictions (AlphaFold2 multimer pipeline) with traditional docking techniques in a hybrid approach to protein-protein docking. To complement the AlphaFold models generated for the given oligomeric state of the targets, we built docking predictions by combining models generated for lower-oligomeric states-dimers for trimeric targets and trimers/dimers for tetrameric targets. In addition, we used a template-based docking procedure applied to AlphaFold predicted structures of the monomers. We analyzed the clustering of the generated AlphaFold models, the confidence in the prediction of intra- and inter-chain residue-residue contacts, and the correlation of the AlphaFold predictions stability with the quality of the submitted models.

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结合AlphaFold和对接的第55轮CAPRI目标建模

近年来，结构生物学领域取得了显著的进展，特别是在蛋白质三级和四级结构的建模方面。AlphaFold深度学习方法通过在许多目标上实现接近实验的精度，彻底改变了蛋白质结构预测。本文通过将基于深度学习的预测（AlphaFold2多定时器管道）与传统对接技术相结合，以蛋白质-蛋白质对接的混合方法，详细介绍了CAPRI第55轮中寡聚物靶标的结构建模。为了补充为给定目标的低聚状态生成的AlphaFold模型，我们通过结合为低聚状态生成的模型（三聚体目标的二聚体和四聚体目标的三聚体/二聚体）构建对接预测。此外，我们使用了一个基于模板的对接程序，应用于AlphaFold预测单体的结构。我们分析了生成的AlphaFold模型的聚类，预测链内和链间残基接触的置信度，以及AlphaFold预测稳定性与提交模型质量的相关性。

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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来源期刊

Proteins-Structure Function and Bioinformatics 生物-生化与分子生物学

CiteScore

5.90

自引率

3.40%

发文量

172

审稿时长

3 months

期刊介绍： PROTEINS : Structure, Function, and Bioinformatics publishes original reports of significant experimental and analytic research in all areas of protein research: structure, function, computation, genetics, and design. The journal encourages reports that present new experimental or computational approaches for interpreting and understanding data from biophysical chemistry, structural studies of proteins and macromolecular assemblies, alterations of protein structure and function engineered through techniques of molecular biology and genetics, functional analyses under physiologic conditions, as well as the interactions of proteins with receptors, nucleic acids, or other specific ligands or substrates. Research in protein and peptide biochemistry directed toward synthesizing or characterizing molecules that simulate aspects of the activity of proteins, or that act as inhibitors of protein function, is also within the scope of PROTEINS. In addition to full-length reports, short communications (usually not more than 4 printed pages) and prediction reports are welcome. Reviews are typically by invitation; authors are encouraged to submit proposed topics for consideration.