Search results for "Electron Microscope Tomography"

showing 6 items of 6 documents

Age‐related ultrastructural changes of the basement membrane in the mouse blood‐brain barrier

2018

Abstract The blood‐brain barrier (BBB) is essential for a functional neurovascular unit. Most studies focused on the cells forming the BBB, but very few studied the basement membrane (BM) of brain capillaries in ageing. We used transmission electron microscopy and electron tomography to investigate the BM of the BBB in ageing C57BL/6J mice. The thickness of the BM of the BBB from 24‐month‐old mice was double as compared with that of 6‐month‐old mice (107 nm vs 56 nm). The aged BBB showed lipid droplets gathering within the BM which further increased its thickness (up to 572 nm) and altered its structure. The lipids appeared to accumulate toward the glial side of the BM. Electron tomography …

0301 basic medicineblood‐brain barrierAgingElectron Microscope TomographyMyocytes Smooth Muscleelectron tomographyBlood–brain barrierMuscle Smooth Vascular03 medical and health sciencesMice0302 clinical medicineMicroscopy Electron TransmissionLipid dropletmedicineAnimalsBasement membraneChemistryNeurodegenerationBrainLipid metabolismBiological TransportCell BiologyOriginal ArticlesLipid Dropletsmedicine.diseaseLipid Metabolismbasement membraneCell biologyCapillariesMice Inbred C57BL030104 developmental biologymedicine.anatomical_structureElectron tomographyAgeingageingBlood-Brain Barrier030220 oncology & carcinogenesisAstrocytesUltrastructureMolecular MedicineOriginal ArticleNeuroglia

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Permeability changes of integrin-containing multivesicular structures triggered by picornavirus entry.

2014

Cellular uptake of clustered α2β1-integrin induces the formation of membrane compartments that subsequently mature into a multivesicular body (MVB). Enhanced internalization mediated by clustered integrins was observed upon infection by the picornavirus echovirus 1 (EVI). We elucidated the structural features of virus-induced MVBs (vMVBs) in comparison to antibody-induced control MVBs (mock infection) by means of high-pressure cryo fixation of cells followed by immuno electron tomography during early entry of the virus. Three-dimensional tomograms revealed a marked increase in the size and complexity of these vMVBs and the intraluminal vesicles (ILVs) at 2 and 3.5 hours post infection (p.i.…

CytoplasmElectron Microscope TomographyEchovirusPicornaviruslcsh:MedicinePicornaviridaemedicine.disease_causeBiochemistryCell membrane2.1 Biological and endogenous factors2.2 Factors relating to the physical environmentAetiologylcsh:ScienceInternalizationmedia_common0303 health sciencesMicroscopyMicroscopy ConfocalMultidisciplinaryTumorbiology030302 biochemistry & molecular biologyMultivesicular Bodies3. Good healthCell biologymedicine.anatomical_structureInfectious DiseasesConfocalIntegrin alpha2beta1InfectionResearch ArticleBiotechnologyEndosomeGeneral Science & Technologymedia_common.quotation_subjectBiophysicsEndosomesMicrobiologyPermeabilityCell Line03 medical and health sciencesCell Line TumormedicineHumansMultivesicular BodyMolecular Biology030304 developmental biologyPicornaviridae Infectionslcsh:RVirus Uncoatingta1183Cell Membraneta1182Biology and Life SciencesComputational BiologyCell Biologybiology.organism_classificationEmerging Infectious DiseasesCytoplasmlcsh:Q

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Compensation of missing wedge effects with sequential statistical reconstruction in electron tomography.

2014

Electron tomography (ET) of biological samples is used to study the organization and the structure of the whole cell and subcellular complexes in great detail. However, projections cannot be acquired over full tilt angle range with biological samples in electron microscopy. ET image reconstruction can be considered an ill-posed problem because of this missing information. This results in artifacts, seen as the loss of three-dimensional (3D) resolution in the reconstructed images. The goal of this study was to achieve isotropic resolution with a statistical reconstruction method, sequential maximum a posteriori expectation maximization (sMAP-EM), using no prior morphological knowledge about …

Electron Microscope TomographyComputer scienceImage Processinglcsh:MedicineBioinformaticsDiagnostic Radiologylaw.inventionComputer-AssistedMathematical and Statistical TechniqueslawImage Processing Computer-AssistedMedicine and Health SciencesElectron Microscopylcsh:ScienceTomographyMicroscopyMultidisciplinaryMaximum Likelihood EstimationPhysical SciencesBiomedical ImagingTomographyCellular Structures and OrganellesArtifactsAlgorithmAlgorithmsStatistics (Mathematics)Research ArticleGeneral Science & TechnologyImaging TechniquesBioengineeringImage processingIterative reconstructionResearch and Analysis MethodsImaging phantomElectron Beam TomographyDiagnostic MedicineExpectation–maximization algorithmMaximum a posteriori estimationStatistical Methodsta217lcsh:Rta1182Biology and Life SciencesComputational BiologyCell BiologyElectron tomographyTransmission Electron Microscopylcsh:QGeneric health relevanceElectron microscopeMathematicsElectron Microscope TomographyPLoS ONE

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Hidden Structural Features of Multicompartment Micelles Revealed by Cryogenic Transmission Electron Tomography

2014

The demand for ever more complex nanostructures in materials and soft matter nanoscience also requires sophisticated characterization tools for reliable visualization and interpretation of internal morphological features. Here, we address both aspects and present synthetic concepts for the compartmentalization of nanoparticle peripheries as well as their in situ tomographic characterization. We first form negatively charged spherical multicompartment micelles from ampholytic triblock terpolymers in aqueous media, followed by interpolyelectrolyte complex (IPEC) formation of the anionic corona with bis-hydrophilic cationic/neutral diblock copolymers. At a 1:1 stoichiometric ratio of anionic a…

Electron Microscope TomographyMaterials sciencePolymersProton Magnetic Resonance Spectroscopyta221electron tomographyGeneral Physics and AstronomyIonic bondingNanoparticleNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesMicelleCopolymerGeneral Materials ScienceSoft matterMicellesta218ta214ta114interpolyelectrolyte complexesGeneral EngineeringCationic polymerization021001 nanoscience & nanotechnology0104 chemical sciencesChemical engineeringChromatography GelCryo-electron tomographySelf-assembly0210 nano-technologyACS Nano

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3D-Ultrastructure, Functions and Stress Responses of Gastropod (Biomphalaria glabrata) Rhogocytes

2014

Rhogocytes are pore cells scattered among the connective tissue of different body parts of gastropods and other molluscs, with great variation in their number, shape and size. They are enveloped by a lamina of extracellular matrix. Their most characteristic feature is the "slit apparatus", local invaginations of the plasma membrane bridged by cytoplasmic bars, forming slits of ca. 20 nm width. A slit diaphragm creates a molecular sieve with permeation holes of 20×20 nm. In blue-blooded gastropods, rhogocytes synthesize and secrete the respiratory protein hemocyanin, and it has been proposed-though not proven-that in the rare red-blooded snail species they might synthesize and secrete the he…

Electron Microscope TomographyRespiratory SystemCell PoresProtein SynthesisBiochemistryNucleic AcidsTissue DistributionHemoproteinsSecretory PathwayMultidisciplinaryBiomphalariabiologyQRImmunogold labellingAnatomyEndoplasmic ReticulaEndocytosisBody FluidsExtracellular MatrixCell biologyRespiratory proteinProtein TransportConnective TissueCell ProcessesSlit diaphragmMedicineAnatomyCellular Structures and OrganellesCellular TypesResearch ArticleCadmiumProtein StructureHistologyScienceMolecular Sequence DataBiosynthesisProtein ChemistryExocytosisNephrinImaging Three-DimensionalStress PhysiologicalAnimalsBiomphalaria glabrataAmino Acid SequenceEvolutionary BiologyCell MembraneBiology and Life SciencesProteinsMembrane ProteinsGlobulinsCell Biologybiology.organism_classificationCytoskeletal ProteinsBiological TissueMembrane proteinCytoplasmUltrastructurebiology.proteinExtracellular SpaceRibosomesZoologyPLoS ONE

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In situ structural analysis of SARS-CoV-2 spike reveals flexibility mediated by three hinges

2020

Flexible spikes The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike protein enables viral entry into host cells by binding to the angiotensin-converting enzyme 2 (ACE2) receptor and is a major target for neutralizing antibodies. About 20 to 40 spikes decorate the surface of virions. Turoňová et al. now show that the spike is flexibly connected to the viral surface by three hinges that are well protected by glycosylation sites. The flexibility imparted by these hinges may explain how multiple spikes act in concert to engage onto the flat surface of a host cell. Science, this issue p. 203

In situElectron Microscope TomographyGlycanGlycosylationFlexibility (anatomy)virusesProtein domainPneumonia ViralHingeMolecular Dynamics SimulationBiologylaw.inventionBetacoronavirusProtein DomainslawTarget identificationmedicineHumansPandemicsResearch ArticlesHost cell surfaceMultidisciplinarySARS-CoV-2R-ArticlesCryoelectron MicroscopyBiochemCOVID-19MicrobioResearch HighlightCell biologymedicine.anatomical_structureSpike Glycoprotein Coronavirusbiology.proteinRecombinant DNASpike (software development)Protein MultimerizationStructural biologyCoronavirus InfectionsResearch ArticleScience (New York, N.y.)

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