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A Random Forest Model for Peptide Classification Based on Virtual Docking Data

Hua Feng, Fangyu Wang, Ning Li, Qian Xu, Guanmin Zheng, Xuefeng Sun, Man Hu, Guangxu Xing, Gaiping Zhang

2023International Journal of Molecular Sciences17 citationsDOIOpen Access PDF

Abstract

The affinity of peptides is a crucial factor in studying peptide-protein interactions. Despite the development of various techniques to evaluate peptide-receptor affinity, the results may not always reflect the actual affinity of the peptides accurately. The current study provides a free tool to assess the actual peptide affinity based on virtual docking data. This study employed a dataset that combined actual peptide affinity information (active and inactive) and virtual peptide-receptor docking data, and different machine learning algorithms were utilized. Compared with the other algorithms, the random forest (RF) algorithm showed the best performance and was used in building three RF models using different numbers of significant features (four, three, and two). Further analysis revealed that the four-feature RF model achieved the highest Accuracy of 0.714 in classifying an independent unknown peptide dataset designed with the PEDV spike protein, and it also revealed overfitting problems in the other models. This four-feature RF model was used to evaluate peptide affinity by constructing the relationship between the actual affinity and the virtual docking scores of peptides to their receptors.

Topics & Concepts

Random forestDocking (animal)Computer scienceComputational biologyPeptideArtificial intelligenceChemistryBiologyMedicineBiochemistryNursingMachine Learning in BioinformaticsComputational Drug Discovery MethodsProtein Structure and Dynamics
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