Search results for "plasma protein"

showing 10 items of 193 documents

alpha 11beta 1 integrin recognizes the GFOGER sequence in interstitial collagens.

2002

The integrins alpha(1)beta(1), alpha(2)beta(1), alpha(10)beta(1), and alpha(11)beta(1) are referred to as a collagen receptor subgroup of the integrin family. Recently, both alpha(1)beta(1) and alpha(2)beta(1) integrins have been shown to recognize triple-helical GFOGER (where single letter amino acid nomenclature is used, O = hydroxyproline) or GFOGER-like motifs found in collagens, despite their distinct binding specificity for various collagen subtypes. In the present study we have investigated the mechanism whereby the latest member in the integrin family, alpha(11)beta(1), recognizes collagens using C2C12 cells transfected with alpha(11) cDNA and the bacterially expressed recombinant a…

Models MolecularIntegrinsDNA ComplementaryReceptors CollagenPhenylalanineIntegrinAmino Acid MotifsPlasma protein bindingBiochemistrylaw.inventionCollagen receptorMiceProtein structurelawCell AdhesionAnimalsHumansMagnesiumMolecular BiologyBinding selectivityCells Culturedchemistry.chemical_classificationbiologyDose-Response Relationship DrugCell BiologyPrecipitin TestsRecombinant ProteinsAmino acidProtein Structure TertiaryKineticschemistryBiochemistrybiology.proteinRecombinant DNACalciumCollagenPeptidesType I collagenProtein BindingThe Journal of biological chemistry
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Structure of three tandem filamin domains reveals auto-inhibition of ligand binding

2007

Human filamins are large actin-crosslinking proteins composed of an N-terminal actin-binding domain followed by 24 Ig-like domains (IgFLNs), which interact with numerous transmembrane receptors and cytosolic signaling proteins. Here we report the 2.5 A resolution structure of a three-domain fragment of human filamin A (IgFLNa19-21). The structure reveals an unexpected domain arrangement, with IgFLNa20 partially unfolded bringing IgFLNa21 into close proximity to IgFLNa19. Notably the N-terminus of IgFLNa20 forms a beta-strand that associates with the CD face of IgFLNa21 and occupies the binding site for integrin adhesion receptors. Disruption of this IgFLNa20-IgFLNa21 interaction enhances fi…

Models MolecularIntegrinsanimal structuresintegrinFilaminsIntegrinmacromolecular substancesPlasma protein bindingLigandsFilaminBiochemistryArticleGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesFilamin bindingContractile ProteinsHumansBinding siteCell adhesionCytoskeletonMolecular BiologyX-ray crystallography030304 developmental biologyIntegrin binding0303 health sciencesGeneral Immunology and MicrobiologybiologyGeneral NeuroscienceMicrofilament Proteins030302 biochemistry & molecular biologycell adhesioncytoskeletonfilaminProtein Structure TertiaryCell biologybiology.proteinProtein BindingThe EMBO Journal
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Effect of ATP Binding and Hydrolysis on Dynamics of Canine Parvovirus NS1▿ †

2010

ABSTRACT The replication protein NS1 is essential for genome replication and protein production in parvoviral infection. Many of its functions, including recognition and site-specific nicking of the viral genome, helicase activity, and transactivation of the viral capsid promoter, are dependent on ATP. An ATP-binding pocket resides in the middle of the modular NS1 protein in a superfamily 3 helicase domain. Here we have identified key ATP-binding amino acid residues in canine parvovirus (CPV) NS1 protein and mutated amino acids from the conserved A motif (K406), B motif (E444 and E445), and positively charged region (R508 and R510). All mutations prevented the formation of infectious viruse…

Models MolecularParvovirus CaninevirusesImmunologyMolecular Sequence DataPlasma protein bindingViral Nonstructural ProteinsMicrobiologyCell Linechemistry.chemical_compoundAdenosine TriphosphateDogsVirologyAnimalsAmino Acid SequenceBinding siteBinding SitesbiologyHydrolysisDNA replicationHelicaseFluorescence recovery after photobleachingFusion proteinMolecular biologyGenome Replication and Regulation of Viral Gene ExpressionProtein Structure TertiaryViral replicationchemistryBiochemistryAmino Acid SubstitutionInsect Sciencebiology.proteinCatsMutagenesis Site-DirectedSequence AlignmentDNAProtein Binding
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Effects of ligand binding on the mechanical properties of ankyrin repeat protein gankyrin.

2012

Ankyrin repeat proteins are elastic materials that unfold and refold sequentially, repeat by repeat, under force. Herein we use atomistic molecular dynamics to compare the mechanical properties of the 7-ankyrin-repeat oncoprotein Gankyrin in isolation and in complex with its binding partner S6-C. We show that the bound S6-C greatly increases the resistance of Gankyrin to mechanical stress. The effect is specific to those repeats of Gankyrin directly in contact with S6-C, and the mechanical ‘hot spots’ of the interaction map to the same repeats as the thermodynamic hot spots. A consequence of stepwise nature of unfolding and the localized nature of ligand binding is that it impacts on all as…

Models MolecularProteasome Endopeptidase ComplexGankyrinBiophysicsPlasma protein bindingMolecular Dynamics SimulationLigands01 natural sciencesProtein–protein interaction03 medical and health sciencesCellular and Molecular NeuroscienceMolecular dynamicsProto-Oncogene Proteins0103 physical sciencesGeneticsProteasome endopeptidase complexBiologyMolecular Biologylcsh:QH301-705.5Ecology Evolution Behavior and Systematics030304 developmental biology0303 health sciences010304 chemical physicsEcologybiologyChemistryComputational BiologyAnkyrin Repeat ProteinMolecular biologyComputational Theory and Mathematicslcsh:Biology (General)Modeling and Simulationigand Binding Mechanical Properties Ankyrin Repeat Proteinbiology.proteinBiophysicsAnkyrin repeatStress MechanicalProtein BindingResearch ArticleMacromoleculePLoS Computational Biology
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Mass Spectrometry and Structural Biology Techniques in the Studies on the Coronavirus-Receptor Interaction

2020

Mass spectrometry and some other biophysical methods, have made substantial contributions to the studies on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and human proteins interactions. The most interesting feature of SARS-CoV-2 seems to be the structure of its spike (S) protein and its interaction with the human cell receptor. Mass spectrometry of spike S protein revealed how the glycoforms are distributed across the S protein surface. X-ray crystallography and cryo-electron microscopy made huge impact on the studies on the S protein and ACE2 receptor protein interaction, by elucidating the three-dimensional structures of these proteins and their conformational changes. The…

Models MolecularProtein Conformation alpha-HelicalvirusesGene ExpressionPharmaceutical ScienceReviewPlasma protein bindingSevere Acute Respiratory Syndromemedicine.disease_causeAnalytical Chemistry0302 clinical medicineDrug Discovery030212 general & internal medicineReceptorPeptide sequenceCoronavirus0303 health sciencesChemistrySevere acute respiratory syndrome-related coronavirusBiochemistryChemistry (miscellaneous)Host-Pathogen InteractionsSpike Glycoprotein CoronavirusReceptors VirusMolecular MedicineAngiotensin-Converting Enzyme 2Coronavirus InfectionsProtein BindingglycosylationSARS coronavirusPneumonia Viralstructural techniquesSequence alignmentPeptidyl-Dipeptidase AMass spectrometrylcsh:QD241-441Betacoronavirus03 medical and health scienceslcsh:Organic chemistryspike protein-ACE2 interactionmedicineHumansProtein Interaction Domains and MotifsAmino Acid SequencePhysical and Theoretical ChemistryBinding sitePandemics030304 developmental biologyBinding SitesSARS-CoV-2Organic ChemistryCOVID-19MSStructural biologyProtein Conformation beta-StrandSequence AlignmentMolecules
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Structural basis for the sheddase function of human meprin β metalloproteinase at the plasma membrane.

2012

Ectodomain shedding at the cell surface is a major mechanism to regulate the extracellular and circulatory concentration or the activities of signaling proteins at the plasma membrane. Human meprin β is a 145-kDa disulfide-linked homodimeric multidomain type-I membrane metallopeptidase that sheds membrane-bound cytokines and growth factors, thereby contributing to inflammatory diseases, angiogenesis, and tumor progression. In addition, it cleaves amyloid precursor protein (APP) at the β-secretase site, giving rise to amyloidogenic peptides. We have solved the X-ray crystal structure of a major fragment of the meprin β ectoprotein, the first of a multidomain oligomeric transmembrane sheddase…

Models MolecularProtein ConformationPlasma protein bindingCell membrane03 medical and health sciencesProtein structureZymogenAmyloid precursor proteinmedicineHumans030304 developmental biology0303 health sciencesMultidisciplinaryCrystallographybiologyChemistry030302 biochemistry & molecular biologyCell MembraneMetalloendopeptidasesSheddaseBiological SciencesTransmembrane protein3. Good healthCell biologyProtein Structure Tertiarymedicine.anatomical_structureBiochemistryEctodomainbiology.proteinDimerizationProtein BindingProceedings of the National Academy of Sciences of the United States of America
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Trimeric HIV Env provides epitope occlusion mediated by hypervariable loops

2014

AbstractHypervariable loops of HIV-1 Env protein gp120 are speculated to play roles in the conformational transition of Env to the receptor binding-induced metastable state. Structural analysis of full-length Env-based immunogens, containing the entire V2 loop, displayed tighter association between gp120 subunits, resulting in a smaller trimeric diameter than constructs lacking V2. A prominent basal quaternary location of V2 and V3′ that challenges previous reports would facilitate gp41-independent gp120-gp120 interactions and suggests a quaternary mechanism of epitope occlusion facilitated by hypervariable loops. Deletion of V2 resulted in dramatic exposure of basal, membrane-proximal gp41…

Models MolecularProtein ConformationvirusesHuman immunodeficiency virus (HIV)[CHIM.THER]Chemical Sciences/Medicinal ChemistryPlasma protein bindingHIV Envelope Protein gp120medicine.disease_causeEnv ProteinEpitopeenv Gene ProductsEpitopesProtein structureModelsComputingMilieux_MISCELLANEOUSSequence DeletionGeneticsMultidisciplinary[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Structural Biology [q-bio.BM]Transition (genetics)biologyenv Gene Products Human Immunodeficiency Virusvirus diseaseshypervariable loopsHIV Envelope Protein gp41[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biomolecules [q-bio.BM]3. Good health[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biomolecules [q-bio.BM]CD4 AntigensHIV/AIDSAntibodyHuman Immunodeficiency VirusProtein BindingEnvGp41ArticleVaccine RelatedGenetics[CHIM.CRIS]Chemical Sciences/CristallographymedicineHumansProtein Interaction Domains and Motifs[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]AntigensVaccine Related (AIDS)Preventionta1182Molecular[SDV.IMM.IMM]Life Sciences [q-bio]/Immunology/ImmunotherapyCD4Peptide Fragmentsgp120Good Health and Well BeingHIV-1biology.proteinImmunizationProtein MultimerizationproteinScientific Reports
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The First Crystal Structure of Tyrosinase: All Questions Answered?

2006

Models MolecularProtein FoldingBinding SitesbiologyMonophenol MonooxygenaseProtein ConformationChemistryStereochemistryTyrosinaseBioinorganic chemistryGeneral ChemistryPlasma protein bindingGeneral MedicineCrystal structurebiology.organism_classificationCrystallography X-RayStreptomycesCatalysisStreptomycesProtein structureBiochemistryProtein foldingBinding siteProtein BindingChemInform
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Characterization of the pleiotropic LysR-type transcription regulator LeuO of Escherichia coli

2019

AbstractLeuO is a pleiotropic LysR-type transcriptional regulator (LTTR) and co-regulator of the abundant nucleoid-associated repressor protein H-NS in Gammaproteobacteria. As other LTTRs, LeuO is a tetramer that is formed by dimerization of the N-terminal DNA-binding domain (DBD) and C-terminal effector-binding domain (EBD). To characterize the Escherichia coli LeuO protein, we screened for LeuO mutants that activate the cas (CRISPR-associated/Cascade) promoter more effectively than wild-type LeuO. This yielded nine mutants carrying amino acid substitutions in the dimerization interface of the regulatory EBD, as shown by solving the EBD’s crystal structure. Superimposing of the crystal str…

Models MolecularProtein domainMutantRepressorPlasma protein bindingBiologymedicine.disease_cause03 medical and health sciencesProtein DomainsTranscription (biology)GeneticsConsensus sequencemedicinePromoter Regions GeneticEscherichia coli030304 developmental biologyGenetics0303 health sciences030306 microbiologyEscherichia coli ProteinsGene regulation Chromatin and EpigeneticsGenetic PleiotropyDNAGene Expression Regulation BacterialDNA-Binding ProteinsMutationNucleic Acid ConformationProtein MultimerizationDeoxyribonuclease IProtein BindingTranscription FactorsNucleic Acids Research
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Factors Dictating the Pseudocatalytic Efficiency of Avidins

2006

The hydrolysis of biotinyl p-nitrophenyl ester (BNP) by a series of avidin derivatives was examined. Surprisingly, a hyperthermostable avidin-related protein (AVR4) was shown to display extraordinary yet puzzling hydrolytic activity. In order to evaluate the molecular determinants that contribute to the reaction, the crystal structure of AVR4 was compared with those of avidin, streptavidin and key mutants of the two proteins in complex with biotinyl p-nitroanilide (BNA), the inert amide analogue of BNP. The structures revealed that a critical lysine residue contributes to the hydrolysis of BNP by avidin but has only a minor contribution to the AVR4-mediated reaction. Indeed, the respective …

Models MolecularStreptavidinNitrogenStereochemistryLysineGene ExpressionPlasma protein bindingCrystallography X-RayCatalysischemistry.chemical_compoundProtein structureNucleophileStructural BiologyAmideMolecular BiologyBinding SitesbiologyChemistryHydrolysisLysinePhenyl EthersAvidinLigand (biochemistry)Recombinant ProteinsProtein Structure TertiaryStructural Homology ProteinMutationbiology.proteinStreptavidinProtein BindingAvidinJournal of Molecular Biology
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