Search results for "Models"

showing 10 items of 8211 documents

Participation of Two Ser-Ser-Phe-Tyr Repeats in Interleukin-6 (IL-6)-Binding Sites of the Human IL-6 Receptor

1996

The alpha-subunit of interleukin-6 (IL-6) receptor is a member of the hematopoietin receptor family. The alignment of its amino acid sequence with those of other members of this family (human somatotropin receptor/murine IL-3 receptor beta and human IL-2 receptor beta) has suggested that amino acids included in two SSFY repeats found in each of its hematopoietin receptor domains, contribute to the binding of the ligand. The involvement of these amino acids in IL-6 binding and signal transduction was studied by site-directed mutagenesis and molecular modelling. We present a computer-derived three-dimensional model of the IL-6/IL-6 receptor complex based on the structure of the human somatotr…

Models MolecularReceptor complexMolecular Sequence DataB-cell receptorInterleukin 5 receptor alpha subunitBiologyBiochemistryMiceAntigens CDTumor Cells CulturedEnzyme-linked receptorAnimalsHumans5-HT5A receptorAmino Acid SequenceNuclear receptor co-repressor 1Binding SitesBase SequenceInterleukin-6Antibodies MonoclonalReceptors InterleukinInterleukin-13 receptorReceptors Interleukin-6Molecular biologyBiochemistryMutationRabbitsEpitope MappingRelaxin/insulin-like family peptide receptor 2Signal TransductionEuropean Journal of Biochemistry
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Structural and Functional Similarity of Amphibian Constitutive Androstane Receptor with Mammalian Pregnane X Receptor

2016

The nuclear receptors and xenosensors constitutive androstane receptor (CAR, NR1I3) and pregnane X receptor (PXR, NR1I2) induce the expression of xenobiotic metabolizing enzymes and transporters, which also affects various endobiotics. While human and mouse CAR feature a high basal activity and low induction upon ligand exposure, we recently identified two constitutive androstane receptors in Xenopus laevis (xlCARá and â) that possess PXR-like characteristics such as low basal activity and activation in response to structurally diverse compounds. Using a set of complementary computational and biochemical approaches we provide evidence for xlCARá being the structural and functional counterpa…

Models MolecularReceptors SteroidReceptors Cytoplasmic and Nuclearlcsh:MedicineMolecular Dynamics SimulationPharmacologyBiologyCrystallography X-Raydigestive systemAmphibian ProteinsCell LineXenopus laevischemistry.chemical_compoundChlorocebus aethiopsConstitutive androstane receptorCoactivatorAnimalsHumansBinding sitelcsh:ScienceReceptorConstitutive Androstane ReceptorPregnane X receptorBinding SitesMultidisciplinarylcsh:RPregnane X ReceptorCorrectionLigand (biochemistry)digestive system diseasesCell biologychemistryNuclear receptorCOS Cellslcsh:QAndrostanePLOS ONE
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Structural requirements for V2 vasopressin receptor proteolytic cleavage.

1999

The ligand-induced proteolytic cleavage of the V2 vasopressin receptor transiently expressed in COS cells was investigated. After incubation of the cell membranes with a photoreactive ligand possessing full agonistic properties for V2 receptors, approximately 90% of the porcine and bovine V2 vasopressin receptors were cleaved in the upper part of transmembrane helix 2 at a heptapeptide sequence conserved in both vasopressin and oxytocin receptors. The oxytocin receptor was completely resistant to proteolysis after binding the same photoreactive ligand, which is only a partial agonist for this receptor. Chimeric V2/oxytocin receptors obtained by transfer of extracellular domains of the oxyto…

Models MolecularReceptors VasopressinDNA ComplementaryTime FactorsProtein ConformationSwineMolecular Sequence DataBiologyLigandsTransfectionBiochemistryArginine vasopressin receptor 2Enzyme-linked receptorCyclic AMPAnimalsHumansPoint Mutation5-HT5A receptorAmino Acid SequenceCloning MolecularReceptorProtease-activated receptor 2Vasopressin receptorArginine vasopressin receptor 1BDose-Response Relationship DrugSequence Homology Amino AcidProteinsOxytocin receptorProtein Structure TertiaryEnzyme ActivationBiochemistryMicroscopy FluorescenceReceptors OxytocinType C PhospholipasesCOS CellsMutagenesis Site-DirectedCattlehormones hormone substitutes and hormone antagonistsAdenylyl CyclasesProtein BindingEuropean journal of biochemistry
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Topology and accessibility of the transmembrane helices and the sensory site in the bifunctional transporter DcuB of Escherichia coli.

2011

C(4)-Dicarboxylate uptake transporter B (DcuB) of Escherichia coli is a bifunctional transporter that catalyzes fumarate/succinate antiport and serves as a cosensor of the sensor kinase DcuS. Sites and domains of DcuB were analyzed for their topology relative to the cytoplasmic or periplasmic side of the membrane and their accessibility to the water space. For the topology studies, DcuB was fused at 33 sites to the reporter enzymes PhoA and LacZ that are only active when located in the periplasm or the cytoplasm, respectively. The ratios of the PhoA and LacZ activities suggested the presence of 10 or 11 hydrophilic loops, and 11 or 12 α-helical transmembrane domains (TMDs). The central part…

Models MolecularRecombinant Fusion ProteinsMolecular Sequence Datalac operonTopologyBiochemistryProtein Structure SecondaryPolyethylene GlycolsProtein structureBacterial ProteinsCatalytic DomainStilbenesAmino Acid SequenceCysteineBinding sitePeptide sequenceDicarboxylic Acid TransportersEscherichia coli K12ChemistryEscherichia coli ProteinsCell MembranePeriplasmic spaceAlkaline PhosphataseTransmembrane domainMembrane proteinBiochemistryLac OperonEthylmaleimideSulfonic AcidsHydrophobic and Hydrophilic InteractionsCysteineBiochemistry
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Electrostatic control of the photoisomerization efficiency and optical properties in visual pigments: on the role of counterion quenching.

2009

Hybrid QM(CASPT2//CASSCF/6-31G*)/MM(Amber) computations have been used to map the photoisomerization path of the retinal chromophore in Rhodopsin and explore the reasons behind the photoactivity efficiency and spectral control in the visual pigments. It is shown that while the electrostatic environment plays a central role in properly tuning the optical properties of the chromophore, it is also critical in biasing the ultrafast photochemical event: it controls the slope of the photoisomerization channel as well as the accessibility of the S(1)/S(0) crossing space triggering the ultrafast decay. The roles of the E113 counterion, the E181 residue, and the other amino acids of the protein pock…

Models MolecularRhodopsinPhotoisomerizationPhotochemistryStatic ElectricityPhotochemistryCrystallography X-RayBiochemistryCatalysisRetinaProtein environmentColloid and Surface ChemistryIsomerismAnimalschemistry.chemical_classificationIonsBinding SitesbiologyColor VisionComputational BiologyBiasingGeneral ChemistryChromophoreVisual pigmentschemistryRhodopsinMutationbiology.proteinQuantum TheoryThermodynamicsCattleCounterionProtonsUltrashort pulseJournal of the American Chemical Society
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Kinetics of proton release and uptake by channelrhodopsin-2

2012

Electrophysiological experiments showed that the light-activated cation channel channelrhodopsin-2 (ChR2) pumps protons in the absence of a membrane potential. We determined here the kinetics of transient pH change using a water-soluble pH-indicator. It is shown that ChR2 released protons prior to uptake with a stoichiometry of 0.3 protons per ChR2. Comparison to the photocycle kinetics revealed that proton release and uptake match rise and decay of the View the MathML sourceP3520 intermediate. As the View the MathML sourceP3520 state also represents the conductive state of cation channeling, the concurrence of proton pumping and channel gating implies an intimate mechanistic link of the tw…

Models MolecularRhodopsinProtonKineticsBiophysicsAnalytical chemistryChannelrhodopsinBacteriorhodopsinBiochemistry530Protein Structure SecondaryProton transferStructural BiologyGeneticsMolecular BiologyIon channelMembrane potentialbiologyChemistryfungiBacteriorhodopsinBiological TransportCell BiologyHydrogen-Ion ConcentrationProton PumpsOptogeneticsKineticsRhodopsinBiophysicsbiology.proteinProtonsIon channelStoichiometry
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Structural Characterization of Set1 RNA Recognition Motifs and their Role in Histone H3 Lysine 4 Methylation

2006

Departament de Bioquimica iBiologia Molecular, Universitatde Valencia, C/Dr Moliner 50,46100, Burjassot, SpainThe yeast Set1 histone H3 lysine 4 (H3K4) methyltransferase contains, inaddition to its catalytic SET domain, a conserved RNA recognition motif(RRM1). We present here the crystal structure and the secondary structureassignment in solution of the Set1 RRM1. Although RRM1 has the expectedβαββαβ RRM-fold, it lacks the typical RNA-binding features of thesemodules. RRM1 is not able to bind RNA by itself in vitro, but a constructcombining RRM1 with a newly identified downstream RRM2 specificallybinds RNA. Invivo,H3K4 methylation isnot affectedbyapoint mutation inRRM2 that preserves Set1 s…

Models MolecularRiboswitchHistone H3 Lysine 4Saccharomyces cerevisiae ProteinsRNA-induced transcriptional silencingSurface Properties[SDV]Life Sciences [q-bio]Molecular Sequence DataSaccharomyces cerevisiae[SDV.BC.BC]Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC]BiologyMethylationHistonesStructure-Activity Relationship03 medical and health sciencesStructural BiologyHistone methylation[SDV.BC.BC] Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC]Amino Acid SequenceProtein Structure QuaternaryMolecular BiologyConserved Sequence030304 developmental biology0303 health sciencesRNA recognition motifLysine030302 biochemistry & molecular biologyRNARNA FungalHistone-Lysine N-MethyltransferaseNon-coding RNAMolecular biology[SDV] Life Sciences [q-bio]DNA-Binding ProteinsProtein SubunitsBiochemistryHistone methyltransferaseSequence AlignmentProtein BindingTranscription Factors
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Atomic structure of the major capsid protein of rotavirus: implications for the architecture of the virion

2001

The structural protein VP6 of rotavirus, an important pathogen responsible for severe gastroenteritis in children, forms the middle layer in the triple-layered viral capsid. Here we present the crystal structure of VP6 determined to 2 A resolution and describe its interactions with other capsid proteins by fitting the atomic model into electron cryomicroscopic reconstructions of viral particles. VP6, which forms a tight trimer, has two distinct domains: a distal beta-barrel domain and a proximal alpha-helical domain, which interact with the outer and inner layer of the virion, respectively. The overall fold is similar to that of protein VP7 from bluetongue virus, with the subunits wrapping …

Models MolecularRotavirusCations DivalentViral proteinvirusesMolecular Sequence DataHemagglutinins ViralTrimerCrystal structureBiologyCrystallography X-Raymedicine.disease_causeProtein Structure SecondaryArticleGeneral Biochemistry Genetics and Molecular BiologyVirus03 medical and health sciencesCapsidRotavirusAtomic modelmedicineAnimalsAmino Acid SequenceAntigens ViralMolecular BiologyPeptide sequence030304 developmental biology0303 health sciencesSequence Homology Amino AcidGeneral Immunology and Microbiology030306 microbiologyViral Core ProteinsGeneral NeuroscienceVirionvirus diseasesMolecular biologyZincCapsidSolventsBiophysicsCapsid ProteinsCattleThe EMBO Journal
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Antibody inhibition of the transcriptase activity of the rotavirus DLP: a structural view.

2001

On entering the host cell the rotavirus virion loses its outer shell to become a double-layered particle (DLP). The DLP then transcribes the 11 segments of its dsRNA genome using its own transcriptase complex, and the mature mRNA emerges along the 5-fold axis. In order to better understand the transcription mechanism and the role of VP6 in transcription we have studied three monoclonal antibodies against VP6: RV-238 which inhibits the transcriptase activity of the DLP; and RV-133 and RV-138 which have no effect on transcription. The structures obtained by cryo-electron microscopy of the DLP/Fab complexes and by X-ray crystallography of the VP6 trimer and the VP6/Fab-238 complex have been co…

Models MolecularRotavirusConformational changeSTRUCTUREMature messenger RNAmedicine.drug_classProtein ConformationvirusesBiologyMonoclonal antibodyAntibodies ViralCrystallography X-RayEpitope03 medical and health sciencesEpitopesImmunoglobulin Fab FragmentsCapsidStructural BiologyTranscription (biology)medicine[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyCRISTALLOGRAPHIE[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyRNA MessengerMolecular BiologyAntigens Viral030304 developmental biology0303 health sciencesMessenger RNA030302 biochemistry & molecular biologyCryoelectron Microscopyvirus diseasesRNADNA-Directed RNA PolymerasesMolecular biologyReverse transcriptase3. Good healthVIROLOGIECapsid ProteinsJournal of molecular biology
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Fourfold [2]rotaxanes of calix[4]arenes by ring closure.

2006

Models MolecularRotaxanesChemistryStereochemistryClosure (topology)Hydrogen BondingGeneral ChemistryRing (chemistry)MetathesisCatalysisCyclizationPolymer chemistryCalixareneCalixarenesAngewandte Chemie (International ed. in English)
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