Search results for "Structural Biology."

showing 10 items of 822 documents

Comparison of the decameric structure of peroxiredoxin-II by transmission electron microscopy and X-ray crystallography

2001

Abstract The decameric human erythrocyte protein torin is identical to the thiol-specific antioxidant protein-II (TSA-II), also termed peroxiredoxin-II (Prx-II). Single particle analysis from electron micrographs of Prx-II molecules homogeneously orientated across holes in the presence of a thin film of ammonium molybdate and trehalose has facilitated the production of a ≥20 A 3-D reconstruction by angular reconstitution that emphasises the D5 symmetry of the ring-like decamer. The X-ray structure for Prx-II was fitted into the transmission electron microscopic reconstruction by molecular replacement. The surface-rendered transmission electron microscopy (TEM) reconstruction correlates well…

Models MolecularMolybdenumErythrocytesSurface PropertiesCryo-electron microscopyChemistryResolution (electron density)BiophysicsTrehaloseSingle particle analysisPeroxiredoxinsCrystallography X-RayBiochemistryNegative stainMicroscopy ElectronCrystallographyPeroxidasesElectron tomographyStructural BiologyTransmission electron microscopyHumansEnergy filtered transmission electron microscopyOrthorhombic crystal systemMolecular BiologyBiochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology
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Homology modelling of hemocyanins and tyrosinases: pitfalls in automated approaches.

2004

Models MolecularMonophenol Monooxygenasemedicine.medical_treatmentGeneral Physics and AstronomyHemocyaninCell BiologyComputational biologyAstacoideaBiologyBioinformaticsStructural BiologyHemocyaninsmedicineAnimalsGeneral Materials ScienceHomology (anthropology)Micron (Oxford, England : 1993)
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Structure of rat odorant-binding protein OBP1 at 1.6 angstrom resolution

2009

The nasal mucosa is a specialist interfacial region sandwiched between the olfactory system and the gaseous chemical milieu. In mammals and insects, this region is rich in odorant-binding proteins that are thought to aid olfaction by assisting mass transfer of the many different organoleptic compounds that make up the olfactory landscape. However, in mammals at least, our grasp on the exact function of odorant-binding proteins is tentative and better insight into the role of these proteins is warranted, not least because of their apparent significance in the olfactory systems of insects. Here, the crystal structure of rat odorant-binding protein 1 is reported at 1.6 Å resolution. This prote…

Models MolecularOlfactory systemCristallographyProtein ConformationRecombinant Fusion ProteinsMolecular Sequence DataOlfactionOBP1Crystallography X-RayReceptors Odorant010402 general chemistry01 natural sciencesPheromonesPichia pastoris03 medical and health sciences[ CHIM.CRIS ] Chemical Sciences/CristallographyProtein structureSpecies SpecificityStructural BiologyODORANT-BINDING PROTEINS[CHIM.CRIS]Chemical Sciences/CristallographyAnimalsAmino Acid SequencePeptide sequence030304 developmental biology0303 health sciencesBinding SitesSequence Homology Amino AcidbiologyProteinsGeneral MedicineLigand (biochemistry)biology.organism_classificationLipocalinsRatsCristallographie0104 chemical sciencesTransport proteinDNA-Binding ProteinsBiochemistryOdorant-binding proteinbiology.proteinODORANT-BINDING PROTEINS;OBP1Sequence Alignment
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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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Quaternary structure of the European spiny lobster (Palinurus elephas) 1x6-mer hemocyanin from cryoEM and amino acid sequence data.

2002

Abstract Arthropod hemocyanins are large respiratory proteins that are composed of up to 48 subunits (8×6-mer) in the 75 kDa range. A 3D reconstruction of the 1×6-mer hemocyanin from the European spiny lobster Palinurus elephas has been performed from 9970 single particles using cryoelectron microscopy. An 8 A resolution of the hemocyanin 3D reconstruction has been obtained from about 600 final class averages. Visualisation of structural elements such as α-helices has been achieved. An amino acid sequence alignment shows the high sequence identity (>80%) of the hemocyanin subunits from the European spiny lobster P. elephas and the American spiny lobster Panulirus interruptus . Comparison of…

Models MolecularPanulirusmedicine.medical_treatmentPalinurus elephasMolecular Sequence DataStatic ElectricityCrystallography X-RaySpecies SpecificityStructural BiologymedicineAnimalsAmino Acid SequencePalinuridaeProtein Structure QuaternaryMolecular BiologyPeptide sequencebiologySequence Homology Amino AcidResolution (electron density)Cryoelectron MicroscopyHemocyaninbiology.organism_classificationCrystallographyProtein SubunitsBiochemistryHemocyaninsProtein quaternary structureArthropodSpiny lobsterSequence AlignmentJournal of molecular biology
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DNA minor groove binders: an overview on molecular modeling and QSAR approaches

2007

Molecular recognition of DNA by small molecules and proteins is a fundamental problem in structural biology and drug design. Understanding of recognition in both sequence-selective and sequence neutral ways at the level of successful prediction of binding modes and site selectivity will be instrumental for improvements in the design and synthesis of new molecules as potent and selective gene-regulatory drugs. Minor groove is the target of a large number of non-covalent binding agents. DNA binding with specific sequences, mostly AT, takes place by means of a combination of directed hydrogen bonding to base pair edges, van der Waals interactions with the minor groove walls and generalized ele…

Models MolecularPharmacologyDNA minor groove binders (mGBs) in silico techniques molecular modeling ab initio methods docking molecular dynamics simulations (MDS) QSAR QSPR.Molecular modelBase pairStereochemistryChemistryIn silicoOrganic ChemistryQuantitative Structure-Activity RelationshipDNAComputational biologyBiochemistrySmall moleculechemistry.chemical_compoundMolecular recognitionPharmaceutical PreparationsStructural biologyDocking (molecular)Drug DesignDrug DiscoveryNucleic Acid ConformationMolecular MedicineDNA
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Origins of fluorescence in evolved bacteriophytochromes

2014

Use of fluorescent proteins to study in vivo processes in mammals requires near-infrared (NIR) biomarkers that exploit the ability of light in this range to penetrate tissue. Bacteriophytochromes (BphPs) are photoreceptors that couple absorbance of NIR light to photoisomerization, protein conformational changes, and signal transduction. BphPs have been engineered to form NIR fluorophores, including IFP1.4, Wi-Phy, and the iRFP series, initially by replacement of Asp-207 by His. This position was suggestive because its main chain carbonyl is within hydrogen-bonding distance to pyrrole ring nitrogens of the biliverdin chromophore, thus potentially functioning as a crucial transient proton sin…

Models MolecularPhotoisomerizationNitrogenSurface PropertiesQuantum yieldCrystallography X-RayLigandsProtein EngineeringPhotochemistryBiochemistrychemistry.chemical_compoundparasitic diseasesSide chainAnimalsCloning MolecularneoplasmsMolecular BiologySpectroscopy Near-InfraredBiliverdinBacteriaPhytochromeChemistryBiliverdinetechnology industry and agricultureta1182WaterHydrogen BondingCell BiologyChromophoreequipment and suppliesFluorescenceProtein Structure Tertiarysurgical procedures operativeSpectrometry FluorescenceStructural biologySpectrophotometryProtein Structure and FoldingPhytochromeHydrophobic and Hydrophilic InteractionsBiomarkersProtein BindingJournal of Biological Chemistry
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Lhca5 interaction with plant photosystem I

2006

AbstractIn the outer antenna (LHCI) of higher plant photosystem I (PSI) four abundantly expressed light-harvesting protein of photosystem I (Lhca)-type proteins are organized in two heterodimeric domains (Lhca1/Lhca4 and Lhca2/Lhca3). Our cross-linking studies on PSI-LHCI preparations from wildtype Arabidopsis and pea plants indicate an exclusive interaction of the rarely expressed Lhca5 light-harvesting protein with LHCI in the Lhca2/Lhca3-site. In PSI particles with an altered LHCI composition Lhca5 assembles in the Lhca1/Lhca4 site, partly as a homodimer. This flexibility indicates a binding-competitive model for the LHCI assembly in plants regulated by molecular interactions of the Lhca…

Models MolecularPhotosystem IArabidopsisLight-Harvesting Protein ComplexesBiophysicsPhotosystem IBiochemistrychemistry.chemical_compoundLight harvesting complex IStructural BiologyArabidopsisGeneticsMolecular BiologyLhca5Molecular interactionsPhotosystem I Protein ComplexbiologyArabidopsis ProteinsPeasWild typefood and beveragesArabidopsis ProteinsCell BiologyLight-Harvesting Protein Complexesbiology.organism_classificationCrystallographychemistryChlorophyllBiophysicsLight-harvesting complex ICross-linkingFEBS Letters
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News from an Ancient World: Two Novel Astacin Metalloproteases from the Horseshoe Crab

2008

In this work, we report the cloning, heterologous expression, and characterization of two novel astacin proteases from the chelicerate Limulus polyphemus (horseshoe crab), designated as LAST (Limulus astacin) and LAST_MAM (Limulus astacin containing a MAM domain), respectively. The expression pattern showed ubiquitous occurrence of LAST_MAM, while LAST was predominantly restricted to the eyes and brain, indicating a function in the nervous system. Both enzymes contain the characteristic metzincin-type zinc-binding region and Met turn. While LAST is made up only of the typical prodomain and astacin-like protease domain, LAST_MAM contains an additional MAM (meprin A5 protein tyrosine phosphat…

Models MolecularProteasesDNA ComplementaryInsectaProtein familymedicine.medical_treatmentMolecular Sequence DataContext (language use)Protein tyrosine phosphataseBiologyHydroxamic AcidsNervous SystemCollagen Type IGene Expression Regulation EnzymologicCell LineEvolution MolecularStructural BiologyHorseshoe CrabsmedicineAnimalsProtein oligomerizationAmino Acid SequenceRNA MessengerCloning MolecularMolecular BiologyPhylogenyExtracellular Matrix ProteinsProteaseBase SequenceCaseinsMetalloendopeptidasesbiology.organism_classificationProtein Structure TertiaryBiochemistryStructural Homology ProteinLimulusAstacinOligopeptidesProtein Processing Post-TranslationalJournal of Molecular Biology
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Solution NMR structure of Borrelia burgdorferi outer surface lipoprotein BBP28, a member of the mlp protein family.

2020

Lyme disease is the most widespread vector‐transmitted disease in North America and Europe, caused by infection with Borrelia burgdorferi sensu lato complex spirochetes. We report the solution NMR structure of the B. burgdorferi outer surface lipoprotein BBP28, a member of the multicopy lipoprotein (mlp) family. The structure comprises a tether peptide, five α‐helices and an extended C‐terminal loop. The fold is similar to that of Borrelia tunicate outer surface protein BTA121, which is known to bind lipids. These results contribute to the understanding of Lyme disease pathogenesis by revealing the molecular structure of a protein from the widely found mlp family. This article is protected …

Models MolecularProtein Conformation alpha-HelicalProtein familyLipoproteinsGenetic VectorsGene ExpressionPeptideBiochemistryMicrobiologyPathogenesis03 medical and health sciencesLyme diseaseStructural BiologyBorreliamedicineEscherichia coliHumansProtein Interaction Domains and MotifsAmino Acid SequenceBorrelia burgdorferiCloning MolecularMolecular BiologyNuclear Magnetic Resonance Biomolecular030304 developmental biologychemistry.chemical_classification0303 health sciencesLyme DiseasebiologySequence Homology Amino AcidBorrelia030302 biochemistry & molecular biologybacterial infections and mycosesbiology.organism_classificationmedicine.diseaseRecombinant ProteinsProtein Structure TertiaryOuter surface proteinchemistryBorrelia burgdorferiProtein Conformation beta-StrandSequence AlignmentLipoproteinBacterial Outer Membrane ProteinsProteinsREFERENCES
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