Search results for "Active site"

showing 10 items of 184 documents

Molecular dynamics studies on HIV-1 protease: a comparison of the flap motions between wild type protease and the M46I/G51D double mutant

2007

The emergence of drug-resistant mutants of HIV-1 is a tragic effect associated with conventional long-treatment therapies against acquired immunodeficiency syndrome. These mutations frequently involve the aspartic protease encoded by the virus; knowledge of the molecular mechanisms underlying the conformational changes of HIV-1 protease mutants may be useful in developing more effective and longer lasting treatment regimes. The flap regions of the protease are the target of a particular type of mutations occurring far from the active site. These mutations modify the affinity for both substrate and ligands, thus conferring resistance. In this work, molecular dynamics simulations were perform…

Models MolecularGromacs 3.2Anti-HIV AgentsProtein Conformationmedicine.medical_treatmentflap motionMutantCatalysisVirusInorganic ChemistryProtein structureHIV ProteaseHIV-1 proteaseDrug Resistance ViralEnzyme StabilityHIV-1 proteasemedicineHumansComputer SimulationPhysical and Theoretical Chemistrychemistry.chemical_classificationProteasebiologyHIV-1 drug-resistant mutantOrganic ChemistryWild typeActive siteRecombinant ProteinsComputer Science ApplicationsCell biologyEnzymemolecular dynamics simulationAmino Acid SubstitutionComputational Theory and MathematicsBiochemistrychemistryMutationHIV-1biology.protein

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Optimization of Triazine Nitriles as Rhodesain Inhibitors: Structure-Activity Relationships, Bioisosteric Imidazopyridine Nitriles, and X-ray Crystal…

2013

The cysteine protease rhodesain of Trypanosoma brucei parasites causing African sleeping sickness has emerged as a target for the development of new drug candidates. Based on a triazine nitrile moiety as electrophilic headgroup, optimization studies on the substituents for the S1, S2, and S3 pockets of the enzyme were performed using structure-based design and resulted in inhibitors with inhibition constants in the single-digit nanomolar range. Comprehensive structure-activity relationships clarified the binding preferences of the individual pockets of the active site. The S1 pocket tolerates various substituents with a preference for flexible and basic side chains. Variation of the S2 subs…

Models MolecularImidazopyridineMolecular modelNitrilePyridinesStereochemistryCathepsin LTrypanosoma brucei bruceiSubstituentCysteine Proteinase InhibitorsCrystallography X-RayLigandsBiochemistryStructure-Activity Relationshipchemistry.chemical_compoundParasitic Sensitivity TestsNitrilesDrug DiscoveryHumansMoietyGeneral Pharmacology Toxicology and PharmaceuticsTriazinePharmacologyDose-Response Relationship DrugMolecular StructurebiologyTriazinesChemistryLigandOrganic ChemistryImidazolesActive siteCysteine Endopeptidasesbiology.proteinMolecular MedicineChemMedChem

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"RKKH" peptides from the snake venom metalloproteinase of Bothrops jararaca bind near the metal ion-dependent adhesion site of the human integrin alp…

1999

Integrin alpha(1)beta(1) and alpha(2)beta(1) are the major cellular receptors for collagen, and collagens bind to these integrins at the inserted I-domain in their alpha subunit. We have previously shown that a cyclic peptide derived from the metalloproteinase domain of the snake venom protein jararhagin blocks the collagen-binding function of the alpha(2) I-domain. Here, we have optimized the structure of the peptide and identified the site where the peptide binds to the alpha(2) I-domain. The peptide sequence Arg-Lys-Lys-His is critical for recognition by the I-domain, and five negatively charged residues surrounding the "metal ion-dependent adhesion site" (MIDAS) of the I-domain, when mu…

Models MolecularIntegrinsReceptors CollagenIntegrinMolecular Sequence DataIntegrin alpha2PeptidePeptide bindingBiochemistryAntigens CDCrotalid VenomsAnimalsHumansBothropsComputer SimulationAmino Acid SequenceMolecular BiologyPeptide sequencechemistry.chemical_classificationMetalloproteinaseBinding SitesbiologySequence Homology Amino AcidChemistryActive siteMetalloendopeptidasesCell BiologyCyclic peptidePeptide FragmentsCell biologyBiochemistryJararhaginbiology.proteinMutagenesis Site-DirectedCell Adhesion MoleculesProtein BindingThe Journal of biological chemistry

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Mapping the fluorophilicity of a hydrophobic pocket: synthesis and biological evaluation of tricyclic thrombin inhibitors directing fluorinated alkyl…

2006

In the completion of our fluorine scan of tricyclic inhibitors to map the fluorophilicity/fluorophobicity of the thrombin active site, a series of 11 new ligands featuring alkyl, alkenyl, and fluoroalkyl groups was prepared to explore fluorine effects on binding into the hydrophobic proximal (P) pocket, lined by Tyr 60A and Trp 60D, His 57, and Leu 99. The synthesis of the tricyclic scaffolds was based on the 1,3-dipolar cycloaddition of azomethine ylides, derived from L-proline and 4-bromobenzaldehyde, with N-(4-fluorobenzyl)maleimide. Introduction of alkyl, alkenyl, and partially fluorinated alkyl residues was achieved upon substitution of a sulfonyl group by mixed Mg/Zn organometallics f…

Models MolecularMagnetic Resonance SpectroscopySpectrophotometry InfraredStereochemistrySubstituentCrystallography X-RayBiochemistryAntithrombinschemistry.chemical_compoundDrug DiscoveryNon-covalent interactionsGeneral Pharmacology Toxicology and PharmaceuticsMaleimideAlkylPharmacologychemistry.chemical_classificationSulfonylNucleophilic additionbiologyMolecular StructureOrganic ChemistryActive siteFluorineCycloadditionchemistrySpectrometry Mass Matrix-Assisted Laser Desorption-Ionizationbiology.proteinMolecular MedicineChemMedChem

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Structural Mechanism of SDS-Induced Enzyme Activity of Scorpion Hemocyanin Revealed by Electron Cryomicroscopy

2009

Summary Phenoloxidases (POs) occur in all organisms and are involved in skin and hair coloring in mammals, and initiating melanization in wound healing. Mutation or overexpression of PO can cause albinism or melanoma, respectively. SDS can convert inactive PO and the oxygen carrier hemocyanin (Hc) into enzymatically active PO. Here we present single-particle cryo-EM maps at subnanometer resolution and pseudoatomic models of the 24-oligomeric Hc from scorpion Pandinus imperator in resting and SDS-activated states. Our structural analyses led to a plausible mechanism of Hc enzyme PO activation: upon SDS activation, the intrinsically flexible Hc domain I twists away from domains II and III in …

Models MolecularPROTEINSCopper proteinProtein Conformationmedicine.medical_treatmentProtein subunitArticleScorpions03 medical and health sciencesEnzyme activatorSurface-Active AgentsProtein structureStructural BiologyCatalytic DomainmedicineAnimalsBinding siteMolecular Biology030304 developmental biology0303 health sciencesBinding SitesbiologyChemistryMonophenol Monooxygenase030302 biochemistry & molecular biologyCryoelectron MicroscopyActive siteSodium Dodecyl SulfateHemocyaninEnzyme ActivationProtein SubunitsBiochemistryHemocyaninsbiology.proteinOxygen bindingStructure

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Understanding the diﬀerent activities of highly promiscuous MbtI by computational methods

2012

Salicylate synthase from Mycobacterium tuberculosis, MbtI, is a highly promiscuous Mg(2+) dependent enzyme with up to four distinct activities detected in vitro: isochorismate synthase (IS), isochorismate pyruvate lyase (IPL), salicylate synthase (SS) and chorismate mutase (CM). In this paper, Molecular Dynamic (MD) simulations employing hybrid quantum mechanics/molecular mechanics (QM/MM) potentials have been carried out to get a detailed knowledge of the IS and the IPL activities at the molecular level. According to our simulations, the architecture of the MbtI active site allows catalyzing the two reactions: the isochorismate formation, by means of a stepwise mechanism, and the salicylat…

Models MolecularPericyclic reactionbiologyATP synthaseStereochemistryChemistryGeneral Physics and AstronomyActive siteSubstrate (chemistry)LyasesMycobacterium tuberculosisHydrogen-Ion ConcentrationMolecular Dynamics SimulationLyaseMolecular mechanicsBiochemistryIsochorismate synthasebiology.proteinChorismate mutaseBiocatalysisQuantum TheoryMagnesiumPhysical and Theoretical Chemistry

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Evidence for substrate binding-induced zwitterion formation in the catalytic Cys-His dyad of the SARS-CoV main protease.

2014

The coronavirus main protease (M(pro)) represents an attractive drug target for antiviral therapy of coronavirus (CoV) infections, including severe acute respiratory syndrome (SARS). The SARS-CoV M(pro) and related CoV proteases have several distinct features, such as an uncharged Cys-His catalytic dyad embedded in a chymotrypsin-like protease fold, that clearly separate these enzymes from archetypical cysteine proteases. To further characterize the catalytic system of CoV main proteases and to obtain information about improved inhibitors, we performed comprehensive simulations of the proton-transfer reactions in the SARS-CoV M(pro) active site that lead to the Cys(-)/His(+) zwitterionic st…

Models MolecularProteasesStereochemistryvirusesmedicine.medical_treatmentEntropyStatic ElectricityMolecular Dynamics Simulationmedicine.disease_causeBiochemistrySubstrate Specificitychemistry.chemical_compoundViral ProteinsCatalytic DomainmedicineHistidineCysteineHistidineCoronavirus 3C ProteasesCoronaviruschemistry.chemical_classificationProteasebiologyChemistryvirus diseasesActive siteCysteine EndopeptidasesEnzymeBiochemistryZwitterionbiology.proteinCysteineBiochemistry

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QM/MM calculations of kinetic isotope effects in the chorismate mutase active site.

2003

Kinetic isotope effects have been computed for the Claisen rearrangement of chorismate to prephenate in aqueous solution and in the active site of chorismate mutase from B. subtilus. These included primary 13C and 18O and secondary 3H effects for substitutions at the bond-making and bond-breaking positions. The initial structures of the putative stationary points on the potential energy surface, required for the calculations of isotope effects using the CAMVIB/CAMISO programs, have been selected from hybrid QM/MM molecular dynamical simulations using the DYNAMO program. Refinement of the reactant complex and transition-state structures has been carried out by means of AM1/CHARMM24/TIP3P cal…

Models MolecularProtein ConformationKinetic schemeBiochemistryCatalysisQM/MMIsotopesComputational chemistryKinetic isotope effectComputer SimulationPhysical and Theoretical ChemistryAqueous solutionBinding SitesbiologyChemistryOrganic ChemistryActive siteClaisen rearrangementSolutionsKineticsPotential energy surfacebiology.proteinChorismate mutaseQuantum TheoryThermodynamicsGasesSoftwareBacillus subtilisChorismate MutaseOrganicbiomolecular chemistry

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A Quantum Mechanic/Molecular Mechanic Study of the Wild-Type and N155S Mutant HIV-1 Integrase Complexed with Diketo Acid

2008

Integrase (IN) is one of the three human immunodeficiency virus type 1 (HIV-1) enzymes essential for effective viral replication. Recently, mutation studies have been reported that have shown that a certain degree of viral resistance to diketo acids (DKAs) appears when some amino acid residues of the IN active site are mutated. Mutations represent a fascinating experimental challenge, and we invite theoretical simulations for the disclosure of still unexplored features of enzyme reactions. The aim of this work is to understand the molecular mechanisms of HIV-1 IN drug resistance, which will be useful for designing anti-HIV inhibitors with unique resistance profiles. In this study, we use mo…

Models MolecularProtein ConformationStereochemistryBiophysicsIntegrase inhibitorIntegrase InhibitorsHIV IntegraseBiophysical Theory and ModelingMechanicsMolecular mechanicsProtein structureComputer SimulationMagnesiumTernary complexBinding SitesbiologyChemistryAminobutyratesWild typeActive siteLigand (biochemistry)PhenylbutyratesIntegraseModels ChemicalMultiprotein ComplexesMutagenesis Site-Directedbiology.proteinQuantum TheoryProtein BindingBiophysical Journal

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Activation of Anthranilate Phosphoribosyltransferase from Sulfolobus solfataricus by Removal of Magnesium Inhibition and Acceleration of Product Rele…

2009

Anthranilate phosphoribosyltransferase from the hyperthermophilic archaeon Sulfolobus solfataricus (ssAnPRT) is encoded by the sstrpD gene and catalyzes the reaction of anthranilate (AA) with a complex of Mg(2+) and 5'-phosphoribosyl-alpha1-pyrophosphate (Mg.PRPP) to N-(5'-phosphoribosyl)-anthranilate (PRA) and pyrophosphate (PP(i)) within tryptophan biosynthesis. The ssAnPRT enzyme is highly thermostable (half-life at 85 degrees C = 35 min) but only marginally active at ambient temperatures (turnover number at 37 degrees C = 0.33 s(-1)). To understand the reason for the poor catalytic proficiency of ssAnPRT, we have isolated from an sstrpD library the activated ssAnPRT-D83G + F149S double …

Models MolecularProtein ConformationStereochemistryMutantved/biology.organism_classification_rank.speciesAnthranilate PhosphoribosyltransferaseAnthranilate phosphoribosyltransferaseCrystallography X-RayBiochemistryCatalysisEscherichia coliMagnesiumchemistry.chemical_classificationbiologyved/biologySulfolobus solfataricusSubstrate (chemistry)Active siteRecombinant ProteinsTurnover numberComplementationKineticsEnzymechemistryBiochemistrySulfolobus solfataricusbiology.proteinBiochemistry

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