Search results for "SNAr"

showing 10 items of 26 documents

ROP, the Drosophila Sec1 homolog, interacts with syntaxin and regulates neurotransmitter release in a dosage-dependent manner.

1998

The Sec1 family of proteins is thought to function in both non-neuronal and neuronal secretion, although the precise role of this protein family has not been defined. Here, we study the function of ROP, the Drosophila Sec1 homolog, in neurotransmitter release. Electrophysiological analyses of transgenic lines overexpressing ROP and syntaxin, a presynaptic membrane protein, indicate that ROP interacts with syntaxin in vivo. Characterization of four point mutations in ROP shows that they fall into two phenotypic classes. Two mutations cause a dramatic reduction in both evoked and spontaneous neurotransmitter release. In contrast, the other two mutations reveal an increase in evoked neurotrans…

Munc18 Proteinscongenital hereditary and neonatal diseases and abnormalitiesProtein familyNerve Tissue ProteinsNeurotransmissionBiologySynaptic TransmissionGeneral Biochemistry Genetics and Molecular BiologySyntaxin bindingExocytosischemistry.chemical_compoundSyntaxinAnimalsDrosophila ProteinsNeurotransmitterMolecular BiologyNeurotransmitter AgentsGeneral Immunology and MicrobiologyQa-SNARE ProteinsGeneral NeuroscienceMembrane ProteinsSyntaxin 3eye diseasesCell biologychemistryDrosophilaResearch ArticleThe EMBO journal
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Oxidative C-N fusion of pyridinyl-substituted porphyrins.

2018

International audience; The mild (electro) chemical oxidation of pyridin-2-ylthio-meso substituted Ni(II) porphyrins affords C-N fused cationic and dicationic pyridinium-based derivatives. These porphyrins are fully characterized and the molecular structure of one of them was confirmed by X-ray crystallography. A mechanism for the intramolecular oxidative C-N coupling is proposed based on theoretical calculations and cyclic voltammetry analyses.

Oxidative phosphorylation010402 general chemistry01 natural sciencesMedicinal chemistryCatalysischemistry.chemical_compound[CHIM.ANAL]Chemical Sciences/Analytical chemistryMaterials Chemistrypolycyclic compoundsMolecule[CHIM.COOR]Chemical Sciences/Coordination chemistrydimers fused porphyrin absorption-bands electrosynthesis displacement arrays anthracenes snar tapes pi-extended porphyrinsFusion010405 organic chemistryChemistry[CHIM.ORGA]Chemical Sciences/Organic chemistryMetals and AlloysCationic polymerizationGeneral Chemistry[CHIM.MATE]Chemical Sciences/Material chemistry0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsIntramolecular forceCeramics and CompositesPyridiniumCyclic voltammetryChemical communications (Cambridge, England)
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Syntaxin13 expression is regulated by mammalian target of rapamycin (mTOR) in injured neurons to promote axon regeneration.

2014

Injured peripheral neurons successfully activate intrinsic signaling pathways to enable axon regeneration. We have previously shown that dorsal root ganglia (DRG) neurons activate the mammalian target of rapamycin (mTOR) pathway following injury and that this activity enhances their axon growth capacity. mTOR plays a critical role in protein synthesis, but the mTOR-dependent proteins enhancing the regenerative capacity of DRG neurons remain unknown. To identify proteins whose expression is regulated by injury in an mTOR-dependent manner, we analyzed the protein composition of DRGs from mice in which we genetically activated mTOR and from mice with or without a prior nerve injury. Quantitati…

ProteomicsAxon; Proteomics; Regeneration; SNARE Proteins; mTORSNARE Proteinmedicine.medical_treatmentInbred C57BLRegenerative MedicineBiochemistryMedical and Health SciencesMiceNeurobiologyGanglia SpinalAxonCells CulturedMice KnockoutGene knockdownCulturedQa-SNARE ProteinsTOR Serine-Threonine KinasesAxotomyBiological SciencesSciatic NerveCell biologymedicine.anatomical_structureNeurologicalmTORFemaleAxotomySignal transductionmedicine.symptomSNARE ProteinsBiochemistry & Molecular BiologyPhysical Injury - Accidents and Adverse EffectsSpinalSensory Receptor CellsCellsKnockout1.1 Normal biological development and functioningBiologyAxonUnderpinning researchmedicineAnimalsRegenerationMolecular BiologyPI3K/AKT/mTOR pathwayRegeneration (biology)NeurosciencesProteomicCell BiologyNerve injuryAxonsNerve RegenerationMice Inbred C57BLnervous systemChemical SciencesAxoplasmic transportGanglia
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Daži trīssakarīgi grafi un to saimes bez Hamiltona cikliem

2013

These manuscripts (in Latvian) contain examples of graphs without Hamiltonian cycles. See the flower snark J5 on the page 13. The date here 1.6.78.

Rokrakstscombinatorics graph theory flower snarks
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Regulation of the hDlg/hScrib/Hugl-1 tumour suppressor complex.

2008

The proper function of the Scribble tumour suppressor complex is dependent upon the correct localisation of its components. Previously we observed dynamic relocalisation of the hDlg component under conditions of osmotic stress. We now show that the other two components of the complex, hScrib and Hugl-1 display similar patterns of expression. We demonstrate, by shRNA ablation of hScrib expression, that hDlg and Hugl-1 are in part dependent upon hScrib for their correct localization. However under conditions of osmotic stress this apparent dependency no longer exists: hDlg and Hugl-1 localise to cell membranes independently of hScrib. We also demonstrate an interaction between the three compo…

SCRIBBlotting WesternBiologylaw.inventionCell LineSmall hairpin RNADiscs Large Homolog 1 ProteinlawSyntaxinAnimalsHumansSorbitolTransport VesiclesAdaptor Proteins Signal TransducingRegulation of gene expressionQa-SNARE ProteinsTumor Suppressor ProteinsOsmolar ConcentrationSignal transducing adaptor proteinMembrane ProteinsCell BiologyTransport proteinCell biologyVesicular transport proteinCytoskeletal ProteinsProtein TransportGene Expression RegulationMultiprotein ComplexesSuppressorRNA InterferenceSignal TransductionExperimental cell research
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Axon-glia interaction and membrane traffic in myelin formation

2014

In vertebrate nervous systems myelination of neuronal axons has evolved to increase conduction velocity of electrical impulses with minimal space and energy requirements. Myelin is formed by specialized glial cells which ensheath axons with a lipid-rich insulating membrane. Myelination is a multi-step process initiated by axon-glia recognition triggering glial polarization followed by targeted myelin membrane expansion and compaction. Thereby, a myelin sheath of complex subdomain structure is established. Continuous communication between neurons and glial cells is essential for myelin maintenance and axonal integrity. A diverse group of diseases, from multiple sclerosis to schizophrenia, ha…

SNAREsmyelinationcell communicationReview Articlemembrane trafficlcsh:RC321-571570 Life sciencesmyelin diseaseFyn kinasenervous systemendocytosislocal protein synthesislcsh:Neurosciences. Biological psychiatry. NeuropsychiatryNeuroscience570 Biowissenschaften
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Rytmiikan oppimisen lähtökohdat

2014

Tämä tutkielma käsittelee rytmiikan oppimisen lähtökohtia. Rytmiikan oppimista tarkastellaan psykofyysisen kehityksen, valikoitujen keskeisen oppimisteorioiden sekä motorisen kehityksen näkökulmasta. Lisäksi tutkielmassa ovat opetuskäytäntöinä edustettuina kehollinen lähestyminen sekä sanarytmiikan ja rytmitavujen käyttö rytmiikan opetuksessa. Didaktiset käytännöt ovat instrumenttiopetuksessa usein hiljaista tietoa ja opetuskäytännöt ovat riippuvaisia opettajan taitotasosta sekä kiinnostuksen kohteista. Opetustaitojensa kehittämisestä kiinnostuneille tietoa on saatavilla kuitenkin hajanaisesti. Esimerkiksi lyömäsoitinopetuksessa rytmiikan opetukseen liittyen ei ole saatavilla kirjallisuutta…

SsnarytmiDalcrozemotorinen oppiminenPiagetkehorytmikoordinaatioBrunerOrffGardnerrytmiikkaoppimiskäsitys
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Synaptobrevin cleavage by the tetanus toxin light chain is linked to the inhibition of exocytosis in chromaffin cells

1994

AbstractExocytosis of secretory granules by adrenal chromaffin cells is blocked by the tetanus toxin light chain in a zinc specific manner. Here we show that cellular synaptobrevin is almost completely degraded by the tetanus toxin light chain within 15 min. We used highly purified adrenal secretory granules to show that synaptobrevin, which can be cleaved by the tetanus toxin light chain, is localized in the vesicular membrane. Proteolysis of synaptobrevin in cells and in secretory granules is reversibly inhibited by the zinc chelating agent dipicolinic acid. Moreover, cleavage of synaptobrevin present in secretory granules by the tetanus toxin light chain is blocked by the zinc peptidase …

SynaptobrevinProteolysismedicine.medical_treatmentMolecular Sequence DataBiophysicsSynaptobrevinNerve Tissue ProteinsIn Vitro Techniquesmedicine.disease_causeImmunoglobulin light chainBiochemistryExocytosisExocytosisR-SNARE ProteinsStructural BiologyGeneticsmedicineAnimalsChromaffin GranulesAmino Acid SequenceMolecular BiologySecretory granuleR-SNARE ProteinsAdrenal medullaProteasemedicine.diagnostic_testChemistryToxinMembrane ProteinsCell BiologyPeptide FragmentsTetanus toxinmedicine.anatomical_structureBiochemistryCattleAdrenal medullaFEBS Letters
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Fertility and Polarized Cell Growth Depends on eIF5A for Translation of Polyproline-Rich Formins in Saccharomyces cerevisiae

2014

eIF5A is an essential and evolutionary conserved translation elongation factor, which has recently been proposed to be required for the translation of proteins with consecutive prolines. The binding of eIF5A to ribosomes occurs upon its activation by hypusination, a modification that requires spermidine, an essential factor for mammalian fertility that also promotes yeast mating. We show that in response to pheromone, hypusinated eIF5A is required for shmoo formation, localization of polarisome components, induction of cell fusion proteins, and actin assembly in yeast. We also show that eIF5A is required for the translation of Bni1, a proline-rich formin involved in polarized growth during …

TranslationSaccharomyces cerevisiae ProteinsSaccharomyces cerevisiaePeptide Chain Elongation TranslationalForminsRNA-binding proteinSaccharomyces cerevisiaeInvestigationsPeptide Initiation FactorsMorphogenesisGeneticsQc-SNARE ProteinsPolyproline helixPolarisomeGeneticsMatingbiologyMicrofilament ProteinsMembrane ProteinsRNA-Binding ProteinsTranslation (biology)Polarized growthbiology.organism_classificationActinsProtein Structure TertiaryCell biologyCytoskeletal ProteinsMating of yeastForminsMutationbiology.proteinEIF5APeptidesRibosomesEIF5A
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Tissue expression of the vesicle protein pantophysin

1999

The cell-type restricted expression of cytoplasmic microvesicle membrane protein isoforms may be a consequence of the functional adaptation of these vesicles to the execution of specialized processes in cells of different specialization. To characterize the expression of the vesicle protein pantophysin, an isoform of the synaptic vesicle proteins synaptophysin and synaptoporin, we have prepared and characterized antibodies useful for the immunological detection of pantophysin in vitro and in situ. Using these reagents, we show by immunoblot analyses that pantophysin expression is not homogeneous but differs significantly between various bovine tissues. Furthermore, these differences are not…

Vesicle-associated membrane protein 8Membrane GlycoproteinsHistologySynaptobrevinMicrovesicleMembrane ProteinsSNAP25Cell BiologySynaptoporinBiologyCytoplasmic GranulesMolecular biologyPathology and Forensic MedicineCell biologyR-SNARE ProteinsVesicle-associated membrane proteinMembrane proteinOrgan SpecificitySynaptophysinbiology.proteinAnimalsProtein IsoformsCattleCarrier ProteinsFluorescent Antibody Technique IndirectCell and Tissue Research
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