Search results for "Immunolabeling"

showing 6 items of 6 documents

Peripherin-2 differentially interacts with cone opsins in outer segments of cone photoreceptors

2016

Peripherin-2 is a glycomembrane protein exclusively expressed in the light-sensing compartments of rod and cone photoreceptors designated as outer segments (OS). Mutations in peripherin-2 are associated with degenerative retinal diseases either affecting rod or cone photoreceptors. While peripherin-2 has been extensively studied in rods, there is only little information on its supramolecular organization and function in cones. Recently, we have demonstrated that peripherin-2 interacts with the light detector rhodopsin in OS of rods. It remains unclear, however, if peripherin-2 also binds to cone opsins. Here, using a combination of co-immunoprecipitation analyses, transmission electron micr…

0301 basic medicineRhodopsinOpsingenetic structuresmacromolecular substances030105 genetics & heredityBiologymedicine.disease_causeRetinaMice03 medical and health scienceschemistry.chemical_compoundImmunolabelingMicroscopy Electron TransmissionAntigens NeoplasmFluorescence Resonance Energy TransferGeneticsmedicineAnimalsHumansPeripherin 2Molecular BiologyGenetics (clinical)MutationRetinal DegenerationRetinalGeneral MedicineCone Opsinseye diseases030104 developmental biologyFörster resonance energy transfernervous systemchemistryRhodopsinMutationRetinal Cone Photoreceptor CellsBiophysicsbiology.proteinsense organsProtein BindingVisual phototransductionHuman Molecular Genetics
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Immunoelectron microscopic localization of nitric oxide synthase III in the guinea pig organ of Corti

1998

Nitric oxide synthase III (NOS III) was identified in the guinea pig cochlea on an ultrastructural level using a post-embedding immunolabeling procedure. Ultrathin sections of London Resin (LR) White-embedded specimens were incubated with various concentrations of a commercially available antibody to NOS III and the immunoreactivity visualized by a gold-labeled secondary antibody. Analysis of ultrathin sections of the organ of Corti in the second turn of the cochlea showed that NOS III could be localized in the endothelial cells of the blood vessels under the basilar membrane, which was comparable to its location in similar cells types in various biological systems. Besides this, NOS III wa…

Pathologymedicine.medical_specialtyStereocilia (inner ear)Guinea PigsCuticular plateBiologyImmunolabelingHair Cells AuditorymedicineAnimalsMicroscopy ImmunoelectronOrgan of CortiCochleaLamina reticularisGeneral MedicineImmunohistochemistryBasilar MembraneCell biologyIsoenzymesmedicine.anatomical_structureOtorhinolaryngologyOrgan of CortiDeiters cellsEndothelium Vascularsense organsHair cellNitric Oxide SynthaseEuropean Archives of Oto-Rhino-Laryngology
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The effect of detergents on the basement membrane complex of a biologic scaffold material

2013

The basement membrane complex (BMC) is a critical component of the extracellular matrix (ECM) that supports and facilitates the growth of cells. This study investigates four detergents commonly used in the process of tissue decellularization and their effect upon the BMC. The BMC of porcine urinary bladder was subjected to 3% Triton-X 100, 8 mM 3-[(3-cholamidopropyl) dimethylammonio]-1-propanesulfonate (CHAPS), 4% sodium deoxycholate or 1% sodium dodecyl sulfate (SDS) for 24 h. The BMC structure for each treatment group was assessed by immunolabeling, scanning electron microscopy (SEM) and second harmonic generation (SHG) imaging of the fiber network. The composition was assessed by quantif…

Sus scrofaFluorescent Antibody TechniqueBiochemistryBasement MembraneGlycosaminoglycanExtracellular matrixImmunolabelingchemistry.chemical_compoundTissue ScaffoldChapsSodium dodecyl sulfateDecellularizationGlycosaminoglycansMicrovesselEndothelial CellDecellularizationTissue ScaffoldsIntegrin beta1Extracellular matrixGeneral Medicinemedicine.anatomical_structureCollagenHumanBiotechnologyDetergentMaterials scienceDetergentsBiomedical EngineeringArticleBiomaterialsImaging Three-DimensionalRe-endothelizationIn Situ Nick-End LabelingmedicineAnimalsHumansMolecular BiologyOrgan engineeringBasement membraneStaining and LabelingAnimalBiologic scaffoldAntigens CD29Endothelial CellsDNABiomaterialMolecular biologyKi-67 AntigenGlycosaminoglycanchemistryTissue DecellularizationMicrovesselsActa Biomaterialia
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Immunoelectron Microscopy of Vesicle Transport to the Primary Cilium of Photoreceptor Cells

2009

Cilia are organelles of high structural complexity. Since the biosynthetic machinery is absent from cilia all their molecular components must be synthesized in organelles of the cytoplasm and subsequently transported to the cilium. Ciliary cargos are thought to be translocated in the membrane of transport vesicles or association with these vesicles to the base of the cilium where the vesicles fuse with the periciliary target membrane for further delivery of their cargo into the ciliary compartment by the intraflagellar transport (IFT). Here we describe a modified preembedding labeling method as an alternative technique to conventional postembedding methods eligible for analyses of ciliary c…

Vesicular transport proteinImmunolabelingCytoplasmIntraflagellar transportCiliumVesicleImmunoelectron microscopyOrganellesense organsBiologyCell biology
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Negative Staining of Thinly Spread Biological Samples

2007

Negative staining is widely applicable to isolated viruses, protein molecules, macro-molecular assemblies and fibrils, subcellular membrane fractions, liposomes and artificial membranes, synthetic DNA arrays, and also to polymer solutions. In this chapter, techniques are provided for the preparation of the necessary support films (continuous carbon and holey/perforated carbon). The range of suitable negative stains is presented, with some emphasis on the benefit of using ammonium molybdate and of negative stain-trehalose combinations. Protocols are provided for the single-droplet negative staining technique (on continuous and holey carbon support films), the negative staining-carbon film te…

chemistry.chemical_classificationChemistryUranyl acetatePolymerNegative stainlaw.inventionStainingchemistry.chemical_compoundImmunolabelingMembranelawTannic acidBiophysicsCrystallization
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Lysosomal trafficking in rat cardiac myocytes.

1990

By immunolabeling of cryosections, we have characterized in rat cardiac myocytes the cation-independent mannose-6-phosphate receptor (MPR), a lysosomal membrane glycoprotein, lgp120, and a lysosomal enzyme, MEP (homologous to cathepsin L). Most of the MPR label was located in large membrane-filled structures (MPR structures) in large clusters of mitochondria adjacent to but distinct from the Golgi complex. Lpg120 and MEP showed typical lysosomal localization throughout the cell, often associated with regions that appeared to contain autophagosome-like structures. In addition, MEP and lgp120 co-localized within MPR structures. MEP and MPR were localized inside the lumen of MPR structures. M…

medicine.medical_specialtyHistologyCathepsin LImmunoblottingFluorescent Antibody TechniqueReceptors Cell SurfaceMitochondrionMitochondria HeartReceptor IGF Type 2Cathepsin LImmunolabelingsymbols.namesakeAntigens CDLysosomal-Associated Membrane Protein 1Internal medicineLysosomeEndopeptidasesmedicineAnimalsFrozen SectionsMyocyteReceptorchemistry.chemical_classificationMembrane GlycoproteinsbiologyMyocardiumLysosome-Associated Membrane GlycoproteinsIntracellular MembranesGolgi apparatusCathepsinsRatsCell biologyCysteine EndopeptidasesMicroscopy ElectronEndocrinologymedicine.anatomical_structureAnimals NewbornLiverchemistrybiology.proteinsymbolsCattleAnatomyLysosomesGlycoproteinJournal of Histochemistry & Cytochemistry
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