Search results for "cell membrane"

showing 10 items of 635 documents

Autolysis of Yeasts

2011

Autolysis of yeast cells occurs after they have completed their life cycle and entered the death phase. It is characterized by a loss of cell membrane permeability, alteration of cell wall porosity, hydrolysis of cellular macromolecules by endogenous enzymes, and subsequent leakage of the breakdown products into the extracellular environment. Although a naturally occurring event, autolysis can be induced by exposing yeasts to elevated temperatures (40–60 °C), organic solvents, or detergents. Yeast autolysis occurs in many foods and beverages, where it may affect their sensory quality and commercial acceptability.

Cell wallHydrolysisAutolysis (biology)Cell membrane permeabilitymedicine.diagnostic_testBiochemistryProteolysisEndogenous enzymesmedicineExtracellularFood scienceBiologyYeast
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Identification of a cell surface-associated protein involved in mouse neural cell aggregation by means of antibodies against the sponge aggregation f…

1989

Polyclonal antibodies were raised against the purified aggregation factor (AF) from the sponge Geodia cydonium to elucidate possible immunological relationships between adhesion molecules of lower multicellular eukaryotic systems (sponges) and those of vertebrates. This anti-AF recognized a series of polypeptides associated with the AF, among them also a polypeptide with a Mr of 47,000 (p47). The formation of the antibody-p47 immunocomplexes could be prevented by adsorbing the anti-AF with a brain extract from DBA/2J mice. Moreover, this brain polypeptide inhibited the AF-mediated aggregation of sponge cells. Interestingly, the anti-AF recognized a p37 molecule in the brains of 2- to 3-day-…

CellBlotting WesternSpleenNerve Tissue ProteinsBiochemistryAntibodiesImmunoglobulin Fab FragmentsMicemedicineAnimalsPolyacrylamide gel electrophoresisCell AggregationNeuronsbiologyCell adhesion moleculeCell MembraneBrainProteinsMolecular biologyImmunohistochemistryCell aggregationBlotmedicine.anatomical_structurePolyclonal antibodiesbiology.proteinElectrophoresis Polyacrylamide GelAntibodyPeptidesCell Adhesion MoleculesMembrane biochemistry
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Simulations of a Graphene Nanoflake as a Nanovector To Improve ZnPc Phototherapy Toxicity: From Vacuum to Cell Membrane

2017

International audience; We propose a new approach to improving photodynamic therapy (PDT) by transporting zinc phthalocyanine (ZnPc) in biological systems via a graphene nanoflake, to increase its targeting. Indeed, by means of time-dependent density functional theory simulations, we show that the ZnPc molecule in interaction with a graphene nanoflake preserves its optical properties not only in a vacuum but also in water. Moreover, molecular dynamic simulations demonstrate that the graphene nanoflake/ZnPc association, as a carrier, permits one to stabilize the ZnPc/graphene nanoflake system on the cellular membrane, which was not possible when using ZnPc alone. We finally conclude that the…

Cellular membraneIndolesMaterials scienceVacuum[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsNanotechnology02 engineering and technology[SPI.MAT] Engineering Sciences [physics]/Materials010402 general chemistry01 natural sciences[SPI.MAT]Engineering Sciences [physics]/Materialslaw.inventionCell membraneMolecular dynamicslawCell Line TumorOrganometallic CompoundsmedicineHumansMoleculeGeneral Materials Science[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.ACOU]Engineering Sciences [physics]/Acoustics [physics.class-ph]Zinc phthalocyanine[SPI.ACOU] Engineering Sciences [physics]/Acoustics [physics.class-ph]Photosensitizing AgentsGrapheneCell Membrane021001 nanoscience & nanotechnologyNanostructures0104 chemical sciencesmedicine.anatomical_structurePhotochemotherapyGraphiteDensity functional theory0210 nano-technology
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Comm Sorts Robo to Control Axon Guidance at the Drosophila Midline

2002

AbstractAxon growth across the Drosophila midline requires Comm to downregulate Robo, the receptor for the midline repellent Slit. We show here that comm is required in neurons, not in midline cells as previously thought, and that it is expressed specifically and transiently in commissural neurons. Comm acts as a sorting receptor for Robo, diverting it from the synthetic to the late endocytic pathway. A conserved cytoplasmic LPSY motif is required for endosomal sorting of Comm in vitro and for Comm to downregulate Robo and promote midline crossing in vivo. Axon traffic at the CNS midline is thus controlled by the intracellular trafficking of the Robo guidance receptor, which in turn depends…

Central Nervous SystemEmbryo NonmammalianEndosomeGrowth ConesMolecular Sequence DataEndocytic cycleDown-RegulationNerve Tissue ProteinsReceptors Cell SurfaceCell CommunicationEndosomesBiologyModels BiologicalFunctional LateralityGeneral Biochemistry Genetics and Molecular BiologySequence Homology Nucleic AcidEctodermmedicineAnimalsDrosophila ProteinsReceptors ImmunologicAxonTransport VesiclesReceptorSequence Homology Amino AcidBiochemistry Genetics and Molecular Biology(all)Stem CellsCell MembraneGraft SurvivalGene Expression Regulation DevelopmentalMembrane ProteinsCell DifferentiationAnatomyCommissureSlitProtein Structure TertiaryCell biologyProtein TransportDrosophila melanogastermedicine.anatomical_structureCOS CellsRoundaboutAxon guidanceStem Cell TransplantationCell
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The Process-inducing Activity of Transmembrane Agrin Requires Follistatin-like Domains

2009

Clustering or overexpression of the transmembrane form of the extracellular matrix proteoglycan agrin in neurons results in the formation of numerous highly motile filopodia-like processes extending from axons and dendrites. Here we show that similar processes can be induced by overexpression of transmembrane-agrin in several non-neuronal cell lines. Mapping of the process-inducing activity in neurons and non-neuronal cells demonstrates that the cytoplasmic part of transmembrane agrin is dispensable and that the extracellular region is necessary for process formation. Site-directed mutagenesis reveals an essential role for the loop between beta-sheets 3 and 4 within the Kazal subdomain of t…

Central Nervous SystemFollistatinanimal structuresBiologyCytoplasmic partPC12 CellsBiochemistryProtein Structure SecondaryNeuromuscular junctionCell membraneExtracellular matrixMolecular Basis of Cell and Developmental BiologyProtein structureChlorocebus aethiopsmedicineAnimalsHumansAgrinMolecular BiologyNeuronsAgrinCell MembraneCell BiologyTransmembrane proteinProtein Structure TertiaryRatsCell biologymedicine.anatomical_structurenervous systemProteoglycanBiochemistryCOS CellsMutagenesis Site-Directedbiology.proteinFemaleChickenshormones hormone substitutes and hormone antagonistsJournal of Biological Chemistry
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Comprehensive analysis of expression, subcellular localization, and cognate pairing of SNARE proteins in oligodendrocytes

2009

Oligodendrocytes form the central nervous system myelin sheath by spiral wrapping of their plasma membrane around axons, necessitating a high rate of exocytic membrane addition to the growing myelin membrane. Membrane fusion is mediated by soluble N-ethylmaleimide-sensitive factor attachment protein receptor proteins (SNAREs), which act by specific pairing of vesicle (R)- and target (Q)-SNAREs. To characterize oligodendroglial SNAREs and their trafficking pathways, we performed a detailed expression analysis of SNAREs in differentiating cultured oligodendrocytes and myelin and determined their subcellular localization. Expression of the plasma membrane Q-SNAREs syntaxin 3, syntaxin 4, SNAP2…

Central Nervous SystemMaleVesicle-Associated Membrane Protein 3SynaptobrevinGolgi ApparatusBiologyMembrane FusionR-SNARE ProteinsMiceCellular and Molecular NeuroscienceSNAP23AnimalsSyntaxinQc-SNARE ProteinsTransport VesiclesCells CulturedMyelin SheathR-SNARE ProteinsQa-SNARE ProteinsVesicleCell MembraneLipid bilayer fusionQb-SNARE ProteinsSyntaxin 3Cell CompartmentationTransport proteinCell biologyOligodendrogliaProtein Transportnervous systemFemalebiological phenomena cell phenomena and immunitySNARE ProteinsDimerizationJournal of Neuroscience Research
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A novel cholinergic-specific antigen (Chol-2) in mammalian brain.

1993

Three new antisera have been raised in sheep against cholinergic electromotor presynaptic plasma membranes prepared from the electric organs of the electric ray, Torpedo marmorata. They all recognized one or more cholinergic-specific antigens in the mammalian nervous system by the following criteria: they sensitized the cholinergic subpopulation of rat-brain synaptosomes--and only this subpopulation--to lysis by the complement system and, in an immunocytochemical study, selectively stained choline acetyltransferase-positive cholinergic neurons in the rat spinal cord. However, two of the three antisera failed to recognize Chol-1 alpha and -beta, two closely related minor gangliosides already…

Central nervous systemBiologyTorpedoEpitopeAntigenParasympathetic Nervous SystemGangliosidesmedicineAnimalsCholinergic neuronAntigensMolecular BiologyAntiserumElectric OrganGangliosideSheepGeneral NeuroscienceImmune SeraCell MembraneBrainComplement System ProteinsImmunohistochemistryCell biologyComplement systemRatsmedicine.anatomical_structureImmunologyAntigens SurfaceSynapsesCholinergicNeurology (clinical)Developmental BiologySubcellular FractionsBrain research
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Mechanisms of RNA loading into exosomes

2015

AbstractUpon fusion of multivesicular bodies (MVBs) with the plasma membrane, intraluminal vesicles (ILVs) are released into the extracellular space as exosomes. Since the lipid composition of the exosomal membrane resembles that of raft microdomains, the inward budding process involves the raft-like region of the MVB limiting membrane. Although published research suggests that cellular RNAs may be selectively sorted into exosomes, the molecular mechanisms remain elusive. In this review, we suggest that there is a continuous interaction of cellular RNAs with the outer (cytoplasmic) surface of MVBs and that the selection for incorporation of these RNAs into ILVs is based on their affinity to…

CeramideBiophysicsBiologyExosomesModels BiologicalBiochemistryIntraluminal vesiclesCeramideMembrane Lipidschemistry.chemical_compoundRaftsMembrane MicrodomainsStructural BiologymicroRNAGeneticsExtracellularAnimalsHumansMolecular BiologyVesicleCell MembraneMembraneMultivesicular BodiesRNA-Binding ProteinsRNAMicroRNACell BiologyRaftMicrovesiclesCell biologychemistryCytoplasmRNAlipids (amino acids peptides and proteins)FEBS Letters
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Oligomerization of Vibrio cholerae cytolysin yields a pentameric pore and has a dual specificity for cholesterol and sphingolipids in the target memb…

1999

Vibrio cholerae cytolysin permeabilizes animal cell membranes. Upon binding to the target lipid bilayer, the protein assembles into homo-oligomeric pores of an as yet unknown stoichiometry. Pore formation has been observed with model liposomes consisting of phosphatidylcholine and cholesterol, but the latter were much less susceptible to the cytolysin than were erythrocytes or intestinal epithelial cells. We here show that liposome permeabilization is strongly promoted if cholesterol is combined with sphingolipids, whereby the most pronounced effects are observed with monohexosylceramides and free ceramide. These two lipid species are prevalent in mammalian intestinal brush border membranes…

CeramideCell Membrane PermeabilityPentamerProtein ConformationGalactosylceramidesBiologymedicine.disease_causeBiochemistrychemistry.chemical_compoundPhosphatidylcholinemedicineHumansLipid bilayerMolecular BiologyVibrio choleraeCells CulturedLiposomeSphingolipidsCytotoxinsBrainCell BiologyFluoresceinsLipid MetabolismMembraneCholesterolBiochemistrychemistryVibrio choleraeLiposomesElectrophoresis Polyacrylamide GelCytolysinIsoelectric FocusingThe Journal of biological chemistry
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c-MYC Triggers Lipid Remodelling During Early Somatic Cell Reprogramming to Pluripotency.

2021

AbstractMetabolic rewiring and mitochondrial dynamics remodelling are hallmarks of cell reprogramming, but the roles of the reprogramming factors in these changes are not fully understood. Here we show that c-MYC induces biosynthesis of fatty acids and increases the rate of pentose phosphate pathway. Time-course profiling of fatty acids and complex lipids during cell reprogramming using lipidomics revealed a profound remodelling of the lipid content, as well as the saturation and length of their acyl chains, in a c-MYC-dependent manner. Pluripotent cells displayed abundant cardiolipins and scarce phosphatidylcholines, with a prevalence of monounsaturated acyl chains. Cells undergoing cell r…

ChemistryCell growthCèl·lulesMetabolismPentose phosphate pathwayMitochondrionCellular ReprogrammingLipidsMitochondrial DynamicsArticleCell biologyCell membranePentose Phosphate Pathwaymedicine.anatomical_structuremedicineGlycolysisCàncerReprogrammingGlycolysisIntracellularStem cell reviews and reports
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