Search results for "Protein flexibility"

showing 3 items of 3 documents

Evaluating the stability of pharmacophore features using molecular dynamics simulations.

2016

Abstract Molecular dynamics simulations of twelve protein—ligand systems were used to derive a single, structure based pharmacophore model for each system. These merged models combine the information from the initial experimental structure and from all snapshots saved during the simulation. We compared the merged pharmacophore models with the corresponding PDB pharmacophore models, i.e., the static models generated from an experimental structure in the usual manner. The frequency of individual features, of feature types and the occurrence of features not present in the static model derived from the experimental structure were analyzed. We observed both pharmacophore features not visible in …

0301 basic medicineProtein FlexibilityProtein ConformationBiophysicsStability (learning theory)Molecular Dynamics SimulationLigands01 natural sciencesBiochemistryLigandScoutSet (abstract data type)03 medical and health sciencesMolecular dynamicsComputational chemistryFeature (machine learning)Pharmacophore ModelingSensitivity (control systems)Molecular BiologyBinding Sites010405 organic chemistryChemistryStructure-based Pharmacophore ModelingMolecular DynamicProteinsHydrogen BondingCell Biology0104 chemical sciences030104 developmental biologyRankingModels ChemicalDrug DesignPharmacophoreBiological systemProtein BindingBiochemical and biophysical research communications
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BANΔIT: B’‐factor Analysis for Drug Design and Structural Biology

2020

The analysis of B‐factor profiles from X‐ray protein structures can be utilized for structure‐based drug design since protein mobility changes have been associated with the quality of protein‐ligand interactions. With the BANΔIT (B’‐factor analysis and ΔB’ interpretation toolkit), we have developed a JavaScript‐based browser application that provides a graphical user interface for the normalization and analysis of B’‐factor profiles. To emphasize the usability for rational drug design applications, we have analyzed a selection of crystallographic protein‐ligand complexes and have given exemplary conclusions for further drug optimization including the development of a B’‐factor‐supported pha…

Normalization (statistics)Source codeComputer scienceBioinformaticsmedia_common.quotation_subjectDrug designB-factorMolecular modelingWeb BrowserJavaScriptcomputer.software_genre01 natural sciences03 medical and health sciencesStructural BiologyFactor (programming language)Drug DiscoveryApplication NoteHumansProtein flexibilityProtease Inhibitors030304 developmental biologycomputer.programming_languagemedia_commonGraphical user interface0303 health sciencesbusiness.industrySARS-CoV-2Organic ChemistryComputational BiologyUsabilityAdenosine Monophosphate0104 chemical sciencesComputer Science ApplicationsCOVID-19 Drug Treatment010404 medicinal & biomolecular chemistryDrug DesignMolecular MedicineData miningPharmacophorebusinesscomputerMolecular Informatics
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Protein Flexibility and Preorganization in the Design of Enzymes. The Kemp Elimination Catalyzed by HG3.17

2015

A recently designed enzyme, HG3.17, obtained by directed evolution, has shown a catalytic activity close to natural enzymes. Hybrid QM/MM molecular dynamics simulations for the Kemp elimination in this new enzyme have provided a deep insight into the origin of its catalytic efficiency. In this case, we have first demonstrated the presence of different conformations with significantly different reactivity. The larger reactivity is related with a better electrostatic preorganization of the environment that creates a more favorable electrostatic potential for the reaction to proceed. In HG3.17, efforts to improve the catalytic properties must be focused in possible mutations increasing the pre…

chemistry.chemical_classificationChemistryStereochemistryGeneral ChemistryMolecular dynamicsElectrostaticsDirected evolutionCombinatorial chemistryQM/MMCatalysisCatalysisQM/MMMolecular dynamicsEnzymeEnzyme designReactivity (chemistry)Protein flexibilityKemp eliminationOxyanion hole
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