Search results for "PF-00835231"

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Inhibition Mechanism of SARS‐CoV‐2 Main Protease with Ketone‐Based Inhibitors Unveiled by Multiscale Simulations: Insights for Improved Designs**

2021

Abstract We present the results of classical and QM/MM simulations for the inhibition of SARS‐CoV‐2 3CL protease by a hydroxymethylketone inhibitor, PF‐00835231. In the noncovalent complex the carbonyl oxygen atom of the warhead is placed in the oxyanion hole formed by residues 143 to 145, while P1–P3 groups are accommodated in the active site with interactions similar to those observed for the peptide substrate. According to alchemical free energy calculations, the P1′ hydroxymethyl group also contributes to the binding free energy. Covalent inhibition of the enzyme is triggered by the proton transfer from Cys145 to His41. This step is followed by the nucleophilic attack of the Sγ atom on …

KetoneMolecular modelStereochemistrySubstituentMolecular Dynamics SimulationSARS‐CoV‐2 Inhibitors | Hot PaperCatalysisQM/MM3CL proteasechemistry.chemical_compoundCatalytic DomaininhibitorsHumansHydroxymethylProtease InhibitorsCoronavirus 3C ProteasesResearch Articleschemistry.chemical_classificationPF-00835231Binding SitesbiologySARS-CoV-2molecular modelingActive siteCOVID-19General ChemistryGeneral MedicineKetonesCOVID-19 Drug TreatmentKineticschemistryCovalent bondDrug Designbiology.proteinThermodynamicsOxyanion holeResearch ArticleAngewandte Chemie
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