Search results for "protein structure"

showing 10 items of 757 documents

Aß(25-35) and its C-and/or N-blocked derivatives: copper driven structural features and neurotoxicity

2006

The toxic properties of beta-amyloid protein, Abeta(1-42), the major component of senile plaques in Alzheimer's disease, depend on nucleation-dependent oligomerization and aggregation. In addition, Abeta(1-42) toxicity is favored by the presence of trace metals, which affect the secondary structure of the peptide. A peptide comprising 11 residues within Abeta(1-42) [Abeta(25-35)] aggregates and retains the neurotoxic activity of Abeta(1-42). We have used both Abeta(25-35) and its C-amidated or N-acetylated/C-amidated derivatives to investigate the role of copper(II) in modulating the conformation and aggregation state as well as the neurotoxic properties of amyloid peptides. Electrospray io…

Circular dichroismSpectrometry Mass Electrospray IonizationAmyloidProtein Conformationb-amyloidNeurotoxinsPeptideMicroscopy Atomic ForceCellular and Molecular NeuroscienceProtein structuremental disordersmedicineAnimalsSenile plaqueschemistry.chemical_classificationCerebral CortexNeuronsAmyloid beta-PeptidesCircular DichroismCopper toxicityNeurotoxicityP3 peptideElectron Spin Resonance SpectroscopyAlzheimer's diseasemedicine.diseasePeptide Fragmentsnervous system diseasesRatschemistryBiochemistrycopperModels AnimalBiophysicsAlzheimer’s disease
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Environment- and sequence-dependent modulation of the double-stranded to single-stranded conformational transition of gramicidin A in membranes.

1998

The role of the membrane lipid composition and the individual Trp residues in the conformational rearrangement of gramicidin A along the folding pathway to its channel conformation has been examined in phospholipid bilayers by means of previously described size-exclusion high-performance liquid chromatography HPLC-based strategy (Bano et al. (1991) Biochemistry 30, 886). It has been demonstrated that the chemical composition of the membrane influences the transition rate of the peptide rearrangement from double-stranded dimers to beta-helical monomers. The chemical modification of Trp residues, or its substitution by the more hydrophobic residues phenylalanine or naphthylalanine, stabilized…

Circular dichroismStereochemistryProtein ConformationDimerPhenylalanineEnterococcus faeciumLipid BilayersMolecular Sequence DataPeptideMicrobial Sensitivity TestsBiochemistrychemistry.chemical_compoundProtein structureAmino Acid SequencePeptide sequenceChromatography High Pressure Liquidchemistry.chemical_classificationChemistryCholestenesCircular DichroismGramicidinTryptophanFolding (chemistry)MembraneSpectrometry FluorescenceAmino Acid SubstitutionGramicidinFatty Acids UnsaturatedPhosphatidylcholinesDimerizationBiochemistry
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Size-exclusion high-performance liquid chromatography in the study of the autoassociating antibiotic gramicidin A in micellar milieu.

2003

Gramicidin A (gA) is a polypeptide antibiotic which forms dimeric channels specific for monovalent cations in biological membranes. It is a polymorphic molecule that adopts several different conformations, double-stranded (ds) helical dimers (pore conformation) and single-stranded beta-helical dimers (channel conformation). This study investigated the conformational adaptability of gramicidin A when incorporated into micelles as membrane-mimetic model system. Taking advantage of our reported, versatile, size-exclusion high-performance liquid chromatography (SE-HPLC) strategy that allows the separation of double-stranded dimers and monomers, we have quantitatively characterized the conformat…

Circular dichroismStereochemistryProtein ConformationSize-exclusion chromatographyBiophysicsPeptideBiochemistryMicellechemistry.chemical_compoundMembrane LipidsSurface-Active AgentsProtein structureBiomimetic MaterialsColloidsChromatography High Pressure LiquidMicelleschemistry.chemical_classificationCircular DichroismGramicidinBiological membraneMembranes ArtificialCombinatorial chemistryAnti-Bacterial AgentsMembraneMonomerchemistryChromatography GelDimerizationJournal of biochemical and biophysical methods
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Two Latent and Two Hyperstable Polymeric Forms of Human Neuroserpin

2010

AbstractHuman neuroserpin (hNS) is a serine protease inhibitor that belongs to the serpin superfamily and is expressed in nervous tissues. The serpin fold is generally characterized by a long exposed loop, termed the reactive center loop, that acts as bait for the target protease. Intramolecular insertion of the reactive center loop into the main serpin β-sheet leads to the serpin latent form. As with other known serpins, hNS pathological mutants have been shown to accumulate as polymers composed of quasi-native protein molecules. Although hNS polymerization has been intensely studied, a general agreement about serpin polymer organization is still lacking. Here we report a biophysical chara…

Circular dichroismanimal structuresLightmedicine.medical_treatmenthuman neuroserpinBiophysicsContext (language use)SerpinProtein Structure SecondaryserpinopathiePolymerizationNeuroserpinSpectroscopy Fourier Transform InfraredmedicineHumansProtein IsoformsScattering Radiationpathological serpin aggregationReactive centerSerpinsProtein UnfoldingSerine proteaseProteasebiologyProtein StabilityChemistryCircular DichroismProteinNeuropeptidesTemperatureserpinlatent neuroserpinSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)PolymerizationBiochemistryFENIBembryonic structuresbiology.proteinBiophysicsBiophysical Journal
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Comparative genomics and protein domain graph analyses link ubiquitination and RNA metabolism.

2006

The human gene parkin, known to cause familial Parkinson disease, as well as several other genes, likely involved in other neurodegenerative diseases or in cancer, encode proteins of the RBR family of ubiquitin ligases. Here, we describe the structural diversity of the RBR family in order to infer their functional roles. Of particular interest is a relationship detected between RBR-mediated ubiquitination and RNA metabolism: a few RBR proteins contain RNA binding domains and DEAH-box RNA helicase domains. Global protein domain graph analyses demonstrate that this connection is not RBR-specific, but instead many other proteins contain both ubiquitination and RNA-related domains. These protei…

Comparative genomicsGeneticsbiologyProtein ConformationUbiquitinUbiquitin-Protein LigasesProtein domainMolecular Sequence DataRNAGenomicsF-box proteinRNA Helicase AParkinUbiquitin ligaseProtein Structure TertiaryStructural Biologybiology.proteinAnimalsCluster AnalysisHumansRNAMolecular BiologyGeneAlgorithmsJournal of molecular biology
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The reconstitution of human C1, the first complement component Binding of C1r and C1s to C1q influences the C1q conformation

1981

Complement Activating EnzymesMacromolecular SubstancesProtein ConformationBiophysicsPlasma protein bindingBiochemistryProtein structureComplement C1Structural BiologyGeneticsHumansTrypsinMolecular BiologyComplement C1qComplement C1sEnzyme PrecursorsComplement C1sComplement C1rChemistryComponent (thermodynamics)Complement C1qComplement component 7Immunoglobulin Fc FragmentsCell BiologyHydrogen-Ion ConcentrationImmunoglobulin Fc FragmentsComplement (complexity)BiophysicsProtein BindingFEBS Letters
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Compression-based classification of biological sequences and structures via the Universal Similarity Metric: experimental assessment.

2007

Abstract Background Similarity of sequences is a key mathematical notion for Classification and Phylogenetic studies in Biology. It is currently primarily handled using alignments. However, the alignment methods seem inadequate for post-genomic studies since they do not scale well with data set size and they seem to be confined only to genomic and proteomic sequences. Therefore, alignment-free similarity measures are actively pursued. Among those, USM (Universal Similarity Metric) has gained prominence. It is based on the deep theory of Kolmogorov Complexity and universality is its most novel striking feature. Since it can only be approximated via data compression, USM is a methodology rath…

Computer scienceAlgorismesPrediction by partial matchingCompression dissimilaritycomputer.software_genreBiochemistryProtein Structure SecondaryPhylogenetic studiesStructural BiologySequence Analysis ProteinDatabases Proteinlcsh:QH301-705.5Biological dataNCDApplied MathematicsGenomicsClassificationCDComputer Science ApplicationsBenchmarking:Informàtica::Informàtica teòrica [Àrees temàtiques de la UPC]Universal compression dissimilarityArea Under CurveMetric (mathematics)lcsh:R858-859.7Data miningAlgorithmsData compressionResearch Article:Informàtica::Aplicacions de la informàtica::Bioinformàtica [Àrees temàtiques de la UPC]Normalization (statistics)lcsh:Computer applications to medicine. Medical informaticsBioinformatics Sequence Alignment AlgorithmsSet (abstract data type)Similarity (network science)Normalized compression sissimilarityData compression (Computer science)AnimalsHumansAmino Acid SequenceMolecular BiologyBiologyDades -- Compressió (Informàtica)USMUniversal similarity metricProteinsUCDProtein Structure TertiaryData setGenòmicaStatistical classificationlcsh:Biology (General)ROC CurvecomputerSequence AlignmentSoftwareBMC bioinformatics
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Dynamic-shared Pharmacophore Approach as Tool to Design New Allosteric PRC2 Inhibitors, Targeting EED Binding Pocket.

2020

Abstract: The Polycomb Repressive complex 2 (PRC2) maintains a repressive chromatin state and silences many genes, acting as methylase on histone tails. This enzyme was found overexpressed in many types of cancer. In this work, we have set up a Computer-Aided Drug Design approach based on the allosteric modulation of PRC2. In order to minimize the possible bias derived from using a single set of coordinates within the protein-ligand complex, a dynamic workflow was developed. In details, molecular dynamic was used as tool to identify the most significant ligand-protein interactions from several crystallized protein structures. The identified features were used for the creation of dynamic pha…

Computer scienceAllosteric regulationBinding pocketmacromolecular substancesComputational biologyMolecular Dynamics SimulationLigands01 natural sciences03 medical and health sciencesProtein structureStructural BiologyDrug DiscoveryHumans030304 developmental biologyEED0303 health sciencesVirtual screeningBinding SitesbiologyOrganic ChemistryMolecular DynamicPolycomb Repressive Complex 2Dynamic pharmacophorePRC20104 chemical sciencesComputer Science ApplicationsChromatinMolecular Docking Simulation010404 medicinal & biomolecular chemistryROC CurveDocking (molecular)Drug Designbiology.proteinMolecular MedicinePharmacophorePRC2Allosteric SiteProtein BindingMolecular informaticsReferences
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The Study of Carbamoyl Phosphate Synthetase 1 Deficiency Sheds Light on the Mechanism for Switching On/Off the Urea Cycle

2015

12 páginas, 4 figuras, 2 tablas.

Conformational changeCarbamoyl-Phosphate Synthase I Deficiency DiseaseAllosteric regulationCarbamoyl-Phosphate Synthase (Ammonia)Urea cycle diseases610 Medicine & healthBiologyMolecular Dynamics Simulationurologic and male genital diseases03 medical and health sciences0302 clinical medicineGlutamates1311 GeneticsAmmoniaEnzyme StabilityGeneticsmedicine1312 Molecular BiologyHumansUreaHyperammonemiaSite-directed mutagenesisMolecular Biology030304 developmental biologychemistry.chemical_classification0303 health sciencesSite-directed mutagenesisurogenital systemMutagenesisCarbamoyl phosphate synthetase 1HyperammonemiaCarbamoyl phosphate synthetasemedicine.diseaseAllosteric regulation3. Good healthProtein Structure TertiaryRestrained molecular dynamicsKineticsEnzymeBiochemistrychemistry10036 Medical ClinicEnzymeUrea cycleMutationInborn errors030217 neurology & neurosurgerySignal Transduction
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Probing the role of water in protein conformation and function

2004

Life began in a bath of water and has never escaped it. Cellular function has forced the evolution of many mechanisms ensuring that cellular water concentration has never changed significantly. To free oneself of any conceptual distinction among all small molecules, solutes and solvents, means that experiments to probe water's specific role in molecular function can be designed like any classical chemical reaction. Such an ‘osmotic stress’ strategy will be described in general and for an enzyme, hexokinase. Water behaves like a reactant that competes with glucose in binding to hexokinase, and modulates its conformational change and activity. This ‘osmotic stress’ strategy, now applied to ma…

Conformational changeOsmotic shockProtein ConformationChemical reactionGeneral Biochemistry Genetics and Molecular Biologychemistry.chemical_compoundProtein structureHexokinaseMolecular assemblyWater hydrationHexokinaseOsmotic streChemistryProteinProteinsWaterWater-Electrolyte BalanceAgricultural and Biological Sciences (miscellaneous)Small moleculeSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)GlucoseAgricultural and Biological Sciences (all)SolubilityBiochemistryIntramolecular forceBiophysicsGeneral Agricultural and Biological SciencesResearch ArticleMacromoleculePhilosophical Transactions of the Royal Society of London. Series B: Biological Sciences
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