2016
Impact of Surface Water Layers on Protein–Ligand Binding: How Well Are Experimental Data Reproduced by Molecular Dynamics Simulations in a Thermolysin Test Case?
Betz M, Wulsdorf T, Krimmer S, Klebe G. Impact of Surface Water Layers on Protein–Ligand Binding: How Well Are Experimental Data Reproduced by Molecular Dynamics Simulations in a Thermolysin Test Case? Journal Of Chemical Information And Modeling 2016, 56: 223-233. PMID: 26691064, DOI: 10.1021/acs.jcim.5b00621.Peer-Reviewed Original ResearchMeSH KeywordsDrug DesignLigandsMolecular Dynamics SimulationProtein BindingProtein ConformationReproducibility of ResultsStructure-Activity RelationshipThermodynamicsThermolysinWaterConceptsObserved structure-activity relationshipsLocal water structureProtein-ligand bindingMolecular dynamics simulationsStructure-activity relationshipsHigh-resolution crystal structuresSolvation sitesWater structureSurface water networkWater rearrangementCrystal structureDesolvation effectsDifference electronMolecular dynamicsDynamics simulationsLigand portionWater networkDrug bindingContribution of waterWater layerComplexesSurface water layerWaterPhosphonamidatesStructure
2015
Thermodynamics of protein–ligand interactions as a reference for computational analysis: how to assess accuracy, reliability and relevance of experimental data
Krimmer S, Klebe G. Thermodynamics of protein–ligand interactions as a reference for computational analysis: how to assess accuracy, reliability and relevance of experimental data. Journal Of Computer-Aided Molecular Design 2015, 29: 867-883. PMID: 26376645, DOI: 10.1007/s10822-015-9867-y.Peer-Reviewed Original Research