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Induced-Fit Docking Enables Accurate Free Energy Perturbation Calculations in Homology Models

Tianchuan Xu, Kai Zhu, Alexandre Beautrait, Jérémie Vendôme, Kenneth Borrelli, Robert Abel, Richard A. Friesner, Edward B. Miller

2022Journal of Chemical Theory and Computation37 citationsDOI

Abstract

Homology models have been used for virtual screening and to understand the binding mode of a known active compound; however, rarely have the models been shown to be of sufficient accuracy, comparable to crystal structures, to support free-energy perturbation (FEP) calculations. We demonstrate here that the use of an advanced induced-fit docking methodology reliably enables predictive FEP calculations on congeneric series across homology models ≥30% sequence identity. Furthermore, we show that retrospective FEP calculations on a congeneric series of drug-like ligands are sufficient to discriminate between predicted binding modes. Results are presented for a total of 29 homology models for 14 protein targets, showing FEP results comparable to those obtained using experimentally determined crystal structures for 86% of homology models with template structure sequence identities ranging from 30 to 50%. Implications for the use and validation of homology models in drug discovery projects are discussed.

Topics & Concepts

Homology modelingDocking (animal)Homology (biology)Computational biologyFree energy perturbationSequence homologyPerturbation (astronomy)Computer scienceBiological systemBioinformaticsStatistical physicsCrystallographyComputational chemistryChemistryPhysicsBiologyMolecular dynamicsPeptide sequenceAmino acidMedicineBiochemistryEnzymeGeneNursingQuantum mechanicsComputational Drug Discovery MethodsProtein Structure and DynamicsMicrobial Natural Products and Biosynthesis
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