Search results for "MESH: Protein Conformation"

showing 2 items of 2 documents

A Structural Model of the Human α7 Nicotinic Receptor in an Open Conformation

2015

International audience; Nicotinic acetylcholine receptors (nAchRs) are ligand-gated ion channels that regulate chemical transmission at the neuromuscular junction. Structural information is available at low resolution from open and closed forms of an eukaryotic receptor, and at high resolution from other members of the same structural family, two prokaryotic orthologs and an eukary- otic GluCl channel. Structures of human channels however are still lacking. Homology modeling and Molecular Dynamics simulations are valuable tools to predict structures of unknown proteins, however, for the case of human nAchRs, they have been unsuccessful in providing a stable open structure so far. This is du…

Models MolecularHydrogen bondingalpha7 Nicotinic Acetylcholine ReceptorProtein ConformationMolecular Sequence DataMESH: Sequence Alignmentligand gated ion channles molecular dynamics simulation epibatidine waterlcsh:MedicineSequence alignmentMESH: Amino Acid SequenceMolecular Dynamics SimulationMESH: Models Molecular*Molecular dynamicsProtein structureSequence alignmentCationsHumansMESH: Molecular Dynamics SimulationHomology modelingAmino Acid SequenceNicotinic Receptorlcsh:ScienceBiochemical simulationsIon channelAcetylcholine receptorIonsMESH: Protein Conformation*MultidisciplinaryMESH: HumansMESH: Molecular Sequence DataChemistryMESH: Protein Multimerizationlcsh:RMESH: alpha7 Nicotinic Acetylcholine Receptor/chemistry*[SDV.BIBS]Life Sciences [q-bio]/Quantitative Methods [q-bio.QM]Transmembrane proteinSimulation and modelingNicotinic agonistBiochemistryBiophysicsProtein structurelcsh:QProtein MultimerizationResearch ArticleStructural Model
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The Monod-Wyman-Changeux allosteric model accounts for the quaternary transition dynamics in wild type and a recombinant mutant human hemoglobin

2012

International audience; The acknowledged success of the Monod-Wyman-Changeux (MWC) allosteric model stems from its efficacy in accounting for the functional behavior of many complex proteins starting with hemoglobin (the paradigmatic case) and extending to channels and receptors. The kinetic aspects of the allosteric model, however, have been often neglected, with the exception of hemoglobin and a few other proteins where conformational relaxations can be triggered by a short and intense laser pulse, and monitored by time-resolved optical spectroscopy. Only recently the application of time-resolved wide-angle X-ray scattering (TR-WAXS), a direct structurally sensitive technique, unveiled th…

Models MolecularProtein ConformationcooperativityMESH: Catalytic DomainCooperativity01 natural sciencesMESH: Recombinant ProteinsHemoglobinsProtein structureMESH: Protein ConformationCatalytic Domainprotein structural dynamicsMESH: Allosteric Site0303 health sciencesMultidisciplinaryallosterybiologyMESH: KineticsChemistryBiological SciencesRecombinant Proteins[SDV.BBM.BP]Life Sciences [q-bio]/Biochemistry Molecular Biology/BiophysicsMESH: HemoglobinsAllosteric SiteMESH: Models MolecularAdultMESH: MutationStereochemistryKineticsAllosteric regulation010402 general chemistry03 medical and health sciencesprotein conformational changesflash photolysisallostery; cooperativity; flash photolysis; hemoglobin; protein conformational changes; protein structural dynamics; time-resolved wide angle x ray scattering; time-resolved x-ray scatteringHumans030304 developmental biologytime-resolved X-ray scattering; protein conformational changes; cooperativity; flash photolysisMESH: Humanstime-resolved X-ray scatteringWild typeActive sitetime-resolved wide angle x ray scatteringMESH: AdulthemoglobinSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)0104 chemical sciencesprotein conformational changeKineticsAllosteric enzymeMutationbiology.proteinHemoglobin
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