Search results for "Immunoelectron microscopy"

showing 5 items of 45 documents

B and T lymphocytes are affected in lysosomal disorders--an immunoelectron microscopic study.

1991

Circulating lymphocytes of four patients with mucopolysaccharidoses II and IIIA, four patients with juvenile neuronal ceroid-lipofuscinosis, one patient each with glycogenosis type II, infantile neuronal ceroid-lipofuscinosis, and Gaucher disease were classified by immunoelectron microscopy as B or T lymphocytes. Disease-specific lysosomal inclusions as well as non-specific lysosomal organelles, especially Gall bodies were identified in B and T lymphocytes. These non-quantitative studies indicate that both B and T lymphocytes participate in the lysosomal storage process.

congenital hereditary and neonatal diseases and abnormalitiesPathologymedicine.medical_specialtyHistologyImmunoelectron microscopyMucopolysaccharidosisT-LymphocytesCentral nervous systemVacuoleBiologyPathology and Forensic MedicinePhysiology (medical)OrganellemedicineLysosomal storage diseaseHumansMicroscopy ImmunoelectronB-Lymphocytesnutritional and metabolic diseasesT lymphocytemedicine.diseasemedicine.anatomical_structureNeurologyNeuronal ceroid lipofuscinosisNeurology (clinical)Metabolism Inborn ErrorsNeuropathology and applied neurobiology
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Integrin-mediated Cell Adhesion to Type I Collagen Fibrils

2004

In the integrin family, the collagen receptors form a structurally and functionally distinct subgroup. Two members of this subgroup, α1β1 and α2β1 integrins, are known to bind to monomeric form of type I collagen. However, in tissues type I collagen monomers are organized into large fibrils immediately after they are released from cells. Here, we studied collagen fibril recognition by integrins. By an immunoelectron microscopy method we showed that integrin α2I domain is able to bind to classical D-banded type I collagen fibrils. However, according to the solid phase binding assay, the collagen fibril formation appeared to reduce integrin α1I and α2I domain avidity to collagen and to lower …

fibrilsIntegrinsintegrinRecombinant Fusion ProteinsImmunoelectron microscopyIntegrinCHO Cellsmacromolecular substancesIn Vitro TechniquesFibrilBiochemistryCollagen Type IIntegrin alpha1beta1Collagen receptorCricetinaeCell AdhesionAnimalsHumansMicroscopy ImmunoelectronCell adhesionMolecular BiologybiologyChemistryFibrillogenesisCell BiologycollagensCell biologyCollagen type I alpha 1Biochemistrybiology.proteinCattleIntegrin alpha2beta1Type I collagenJournal of Biological Chemistry
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Distribution and Function of Gap Junction Coupling in Cortical GABAergic Neurons.

2013

Although gap junctions have been observed in GABAergic interneurons of several brain regions, this chapter focuses on the distribution and functions of gap junctions and connexins in inhibitory interneurons of the cerebral cortex and hippocampus. Evidence for interconnections mediated by electrical synapses is reported for at least eight cerebral cortex interneuron types, classified on the basis of morphology, electrophysiology and molecular markers. The main differences in the organization of these interneuronal networks are summarized in terms of homologous and heterologous electrical coupling and mutual chemical inhibition. The role of connexin36 (Cx36) in forming neuronal electrical syn…

genetic structuresInterneuronGAP Junction GABAergic neuronsmusculoskeletal neural and ocular physiologyImmunoelectron microscopyGap junctionHippocampusSettore BIO/11 - Biologia MolecolareBiologySettore BIO/09 - Fisiologiamedicine.anatomical_structureElectrical Synapsesnervous systemCerebral cortexSettore BIO/10 - BiochimicaSynaptic plasticitymedicineGABAergicNeuroscience
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Internalization of novel non-viral vector TAT-streptavidin into human cells

2007

BMC Biotechnology, 7 (1)

virusesEndocytic cyclePROTEINS + POLYPEPTIDES (BIOCHEMISTRY)02 engineering and technologyei-virusperäinen vektoriProtein EngineeringgeeniterapiaPost Transductionchemistry.chemical_compoundTHERAPIES + THERAPEUTICS (MEDICINE)Drug Delivery SystemsLääketieteen bioteknologia - Medical biotechnologyInternalizationmedia_commoninfo:eu-repo/classification/ddc/5700303 health sciencesPinocytosisNocodazoleVEKTOREN (GENETISCHE TECHNIKEN)021001 nanoscience & nanotechnologyLife sciencesCell biologyEndosomal EscapeBiotinylationGene Products tatVirusesVECTORS (GENETIC TECHNIQUES)VEKTOREN (GENETISCHE TECHNIKEN); THERAPIEN + THERAPEUTIK (MEDIZIN); PROTEINE + POLYPEPTIDE (BIOCHEMIE); VECTORS (GENETIC TECHNIQUES); THERAPIES + THERAPEUTICS (MEDICINE); PROTEINS + POLYPEPTIDES (BIOCHEMISTRY)0210 nano-technologyTHERAPIEN + THERAPEUTIK (MEDIZIN)BiotechnologyResearch ArticleStreptavidinEndosomeImmunoelectron microscopymedia_common.quotation_subjectRecombinant Fusion Proteinslcsh:BiotechnologyGenetic VectorsBiologyEndocytosis03 medical and health sciencesstreptavidiiniddc:570lcsh:TP248.13-248.65HumansEndosomal Marker030304 developmental biologyMolecular biologyEndocytic VesiclechemistryStreptavidinTATPROTEINE + POLYPEPTIDE (BIOCHEMIE)HeLa CellsBMC Biotechnology
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Binding and internalization of human papillomavirus type 33 virus-like particles by eukaryotic cells

1995

Infection of cells by human papillomaviruses (HPVs) associated with malignant genital lesions has not been studied because of the lack of an in vitro system and the unavailability of virions. We have now used virus-like particles (VLPs) of HPV type 33 to analyze the initial events in the interaction of the HPV capsid with cell lines. Binding of VLPs to HeLa cells was observed in biochemical assays and by immunofluorescence. VLP binding was inhibited by antisera raised against VLPs but not by monoclonal antibodies recognizing either L1 or L2 epitopes accessible on VLPs. Under saturating conditions, approximately 2 x 10(4) VLPs were bound per cell, with a dissociation constant of about 100 pM…

virusesImmunoelectron microscopyImmunologyBiologyAntibodies ViralMembrane Fusioncomplex mixturesMicrobiologyVirusEpitopeCell LineMiceVirologyAnimalsHumansMicroscopy ImmunoelectronPapillomaviridaeCapsomereVirionMembrane Proteinsvirus diseasesLipid bilayer fusionbiochemical phenomena metabolism and nutritionMolecular biologyEndocytosisEndocytic vesicleCapsidCell cultureInsect ScienceResearch ArticleJournal of Virology
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