2001
Generation of high curvature membranes mediated by direct endophilin bilayer interactions
Farsad K, Ringstad N, Takei K, Floyd S, Rose K, De Camilli P. Generation of high curvature membranes mediated by direct endophilin bilayer interactions. Journal Of Cell Biology 2001, 155: 193-200. PMID: 11604418, PMCID: PMC2198845, DOI: 10.1083/jcb.200107075.Peer-Reviewed Original ResearchMeSH KeywordsAcyltransferasesAdaptor Proteins, Signal TransducingAmino Acid SequenceAnimalsBiological TransportCarrier ProteinsCell MembraneCell SizeDynaminsGolgi ApparatusGTP PhosphohydrolasesHumansLipid BilayersMacromolecular SubstancesMolecular Sequence DataNerve Tissue ProteinsPhylogenyProtein Structure, TertiaryRatsSequence Homology, Amino AcidSynaptic VesiclesConceptsEndophilin-1Lipid bilayersMembrane-trafficking eventsAmino acid stretchHigh-curvature membranesNH2-terminal regionCell-free systemEndophilin BEndophilin functionGTPase dynaminDynamin ringsVesicle buddingEndophilinEndocytic vesiclesGolgi complexNarrow tubulesMembrane deformationCorresponding regionProteinTransferase activityAcyl transferase activityBilayer interactionsNew insightsLipid tubulesPotential roleIdentification and Characterization of a Synaptojanin 2 Splice Isoform Predominantly Expressed in Nerve Terminals*
Nemoto Y, Wenk M, Watanabe M, Daniell L, Murakami T, Ringstad N, Yamada H, Takei K, De Camilli P. Identification and Characterization of a Synaptojanin 2 Splice Isoform Predominantly Expressed in Nerve Terminals*. Journal Of Biological Chemistry 2001, 276: 41133-41142. PMID: 11498538, DOI: 10.1074/jbc.m106404200.Peer-Reviewed Original ResearchAmino Acid SequenceAnimalsBase SequenceChromatography, AffinityCloning, MolecularDNA PrimersGTP PhosphohydrolasesHumansMolecular Sequence DataMutagenesis, Site-DirectedNerve EndingsNerve Tissue ProteinsPhosphoric Monoester HydrolasesProtein IsoformsRac1 GTP-Binding ProteinRatsRNA SplicingSequence Homology, Amino Acid
2000
Functional Characterization of a Mammalian Sac1 and Mutants Exhibiting Substrate-specific Defects in Phosphoinositide Phosphatase Activity*
Nemoto Y, Kearns B, Wenk M, Chen H, Mori K, Alb J, De Camilli P, Bankaitis V. Functional Characterization of a Mammalian Sac1 and Mutants Exhibiting Substrate-specific Defects in Phosphoinositide Phosphatase Activity*. Journal Of Biological Chemistry 2000, 275: 34293-34305. PMID: 10887188, DOI: 10.1074/jbc.m003923200.Peer-Reviewed Original ResearchConceptsSubstrate-specific defectsIntegral membrane proteinsPhosphoinositide phosphatase activityPhosphatase activityMembrane proteinsEndoplasmic reticulumGolgi secretory functionIntegral membrane lipidEukaryotic cell physiologyPrimary sequence homologyYeast Sac1pSAC1 geneHeterologous complementationActin functionSac1 domainSac1pBisphosphate substrateMembrane phosphoinositidesPhosphatidylinositol 3Cell physiologyFunctional characterizationGene productsSequence homologyProtein activityGolgi complexFission and Uncoating of Synaptic Clathrin-Coated Vesicles Are Perturbed by Disruption of Interactions with the SH3 Domain of Endophilin
Gad H, Ringstad N, Löw P, Kjaerulff O, Gustafsson J, Wenk M, Di Paolo G, Nemoto Y, Crum J, Ellisman M, De Camilli P, Shupliakov O, Brodin L. Fission and Uncoating of Synaptic Clathrin-Coated Vesicles Are Perturbed by Disruption of Interactions with the SH3 Domain of Endophilin. Neuron 2000, 27: 301-312. PMID: 10985350, DOI: 10.1016/s0896-6273(00)00038-6.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAnimalsBinding, CompetitiveCarrier ProteinsClathrinCloning, MolecularCoated Pits, Cell-MembraneDynaminsGTP PhosphohydrolasesLampreysMicroinjectionsMolecular Sequence DataNerve Tissue ProteinsPeptide FragmentsPhosphoric Monoester HydrolasesSequence Homology, Amino AcidSrc Homology DomainsSynaptic VesiclesConceptsProline-rich domainSynaptic vesicle endocytosisSH3 domainVesicle endocytosisEndophilin's SH3 domainClathrin coat formationClathrin-coated vesiclesClathrin-coated pitsDisruption of interactionsEndocytic intermediatesProteinprotein interactionsCoat formationEndophilinMolecular switchUncoatingEndocytosisVesicles
1999
The Epsins Define a Family of Proteins That Interact with Components of the Clathrin Coat and Contain a New Protein Module*
Rosenthal J, Chen H, Slepnev V, Pellegrini L, Salcini A, Di Fiore P, De Camilli P. The Epsins Define a Family of Proteins That Interact with Components of the Clathrin Coat and Contain a New Protein Module*. Journal Of Biological Chemistry 1999, 274: 33959-33965. PMID: 10567358, DOI: 10.1074/jbc.274.48.33959.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Protein Complex alpha SubunitsAdaptor Proteins, Signal TransducingAdaptor Proteins, Vesicular TransportAmino Acid SequenceAnimalsCalcium-Binding ProteinsCarrier ProteinsCHO CellsClathrinCoated VesiclesCricetinaeDNA, ComplementaryFluorescent Antibody TechniqueGene ExpressionHumansIntracellular Signaling Peptides and ProteinsLuciferasesMaleMembrane ProteinsMolecular Sequence DataNeuropeptidesPhosphoproteinsPhylogenyProtein BindingProtein Structure, TertiaryRatsRecombinant Fusion ProteinsSequence AlignmentSequence Analysis, DNASequence Homology, Amino AcidTissue DistributionVesicular Transport ProteinsConceptsEpsin 1Clathrin coatClathrin adaptor AP-2New protein modulesNew protein familyTerminal regionAdaptor AP-2Family of proteinsRat brain libraryNPF motifsProtein modulesProtein familyCell peripheryAP-2Membrane dynamicsSimilar proteinsBrain libraryClathrinEps15Vesicle fractionEpsinGreen fluorescentGolgi regionCell surfaceProtein
1997
Identification and characterization of homologues of the Exocyst component Sec10p
Guo W, Roth D, Gatti E, De Camilli P, Novick P. Identification and characterization of homologues of the Exocyst component Sec10p. FEBS Letters 1997, 404: 135-139. PMID: 9119050, DOI: 10.1016/s0014-5793(97)00109-9.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBrainCloning, MolecularCOS CellsExocytosisFungal ProteinsGolgi ApparatusHumansMammalsMolecular Sequence DataPolymerase Chain ReactionRecombinant ProteinsRNA, MessengerSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSequence Homology, Amino AcidTranscription, GeneticTransfectionVesicular Transport ProteinsConceptsC. elegans proteinsCharacterization of homologuesAmino acid identityBroad tissue distributionGolgi trafficMammalian counterpartsYeast SaccharomycesAcid identityGene productsCOS cellsWestern blot analysisSec10pPeripheral cytoplasmExocystBlot analysisProteinTissue distributionImmunofluorescence stainingSec8pCellsSaccharomycesCloningHomologuesExocytosisCytoplasmAn Evolutionarily Conserved Domain in a Subfamily of Rabs Is Crucial for the Interaction with the Guanyl Nucleotide Exchange Factor Mss4*
Burton J, Slepnev V, De Camilli P. An Evolutionarily Conserved Domain in a Subfamily of Rabs Is Crucial for the Interaction with the Guanyl Nucleotide Exchange Factor Mss4*. Journal Of Biological Chemistry 1997, 272: 3663-3668. PMID: 9013620, DOI: 10.1074/jbc.272.6.3663.Peer-Reviewed Original Research
1996
Yeast protein translocation complex: Isolation of two genes SEB1 and SEB2 encoding proteins homologous to the Sec61β subunit
Toikkanen J, Gatti E, Takei K, Saloheimo M, Olkkonen V, Söderlund H, De Camilli P, Keränen S. Yeast protein translocation complex: Isolation of two genes SEB1 and SEB2 encoding proteins homologous to the Sec61β subunit. Yeast 1996, 12: 425-438. PMID: 8740416, DOI: 10.1002/(sici)1097-0061(199604)12:5<425::aid-yea924>3.0.co;2-b.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceBiological TransportCell LineChlorocebus aethiopsCloning, MolecularCytoplasmDNA, ComplementaryDogsEndoplasmic ReticulumFungal ProteinsGenes, FungalGenes, SuppressorMembrane ProteinsMembrane Transport ProteinsMicrosomesMolecular Sequence DataMolecular WeightSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSEC Translocation ChannelsSequence Analysis, DNASequence Homology, Amino AcidVesicular Transport ProteinsConceptsBeta subunitN-terminal signal sequencePotential membrane-spanning regionsEndoplasmic reticulumProtein translocation apparatusMembrane-spanning regionNovel genetic toolsTemperature-sensitive phenotypeHydrophilic N-terminusEvolutionary conservationTranslocation apparatusYeast genesHeterologous hybridizationProtein translocationHomologous genesER membraneGenetic toolsSignal sequenceChromosomal disruptionMulticopy plasmidC-terminusDouble disruptionN-terminusFunctional analysisSeb1A presynaptic inositol-5-phosphatase
McPherson P, Garcia E, Slepnev V, David C, Zhang X, Grabs D, Sossini W, Bauerfeind R, Nemoto Y, De Camilli P. A presynaptic inositol-5-phosphatase. Nature 1996, 379: 353-357. PMID: 8552192, DOI: 10.1038/379353a0.Peer-Reviewed Original ResearchConceptsSH3 domainAmino-terminal domainSynaptic vesicle recyclingRelative molecular massPutative functionsNerve terminal proteinSynaptojaninTerminal proteinVesicle recyclingMajor brain proteinsCarboxy terminusTermination sitesMolecular massOculocerebrorenal syndromeSynaptic vesiclesPresynaptic proteinsDynaminPhosphoinositide metabolismProteinBrain proteinsPhospholipid metabolismMetabolismGrb2DomainGenes
1994
Autoimmunity in Stiff‐Man Syndrome with breast cancer is targeted to the C‐terminal region of human amphiphysin, a protein similar to the yeast proteins, Rvs167 and Rvs161
David C, Solimena M, De Camilli P. Autoimmunity in Stiff‐Man Syndrome with breast cancer is targeted to the C‐terminal region of human amphiphysin, a protein similar to the yeast proteins, Rvs167 and Rvs161. FEBS Letters 1994, 351: 73-79. PMID: 8076697, DOI: 10.1016/0014-5793(94)00826-4.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAutoantibodiesBase SequenceBreast NeoplasmsChickensCloning, MolecularCytoskeletal ProteinsFungal ProteinsHumansMicrofilament ProteinsMolecular Sequence DataNerve Tissue ProteinsOligodeoxyribonucleotidesSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSequence Homology, Amino AcidStiff-Person SyndromeConceptsC-terminal regionStiff-man syndromeYeast proteinsUnfavourable growth conditionsBreast cancerSH3 domainTerminal domainAmphiphysinNeuronal proteinsRvs167Rvs161ProteinCell entryPatient autoantibodiesGrowth conditionsSynaptic membranesSyndromeCancerDistinct patternsStationary phaseDomainChickensAutoantibodiesAutoimmunityAutoantigens
1993
A mammalian guanine-nucleotide-releasing protein enhances function of yeast secretory protein Sec4
Burton J, Roberts D, Montaldi M, Novick P, Camilli P. A mammalian guanine-nucleotide-releasing protein enhances function of yeast secretory protein Sec4. Nature 1993, 361: 464-467. PMID: 8429887, DOI: 10.1038/361464a0.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsATP-Binding Cassette TransportersBase SequenceBlotting, NorthernBrain ChemistryCarrier ProteinsCloning, MolecularDNAEscherichia coliEscherichia coli ProteinsGTP-Binding ProteinsGuanine Nucleotide Exchange FactorsGuanosine DiphosphateGuanosine TriphosphateMaltose-Binding ProteinsMolecular Sequence DataMonosaccharide Transport ProteinsPhosphotransferasesPhosphotransferases (Alcohol Group Acceptor)ProteinsRab GTP-Binding ProteinsRatsRecombinant Fusion ProteinsRecombinant ProteinsRestriction MappingRNA, MessengerSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSequence Homology, Amino AcidConceptsYeast secretory proteinsGTP-GDP cycleHydrolysis of GTPSimilar biochemical propertiesMammalian guanineMss4 proteinYeast proteinsSmall GTPSecretory pathwaySequence similarityAccessory proteinsProtein Rab3AGDP releaseSecretory proteinsMolecular switchComplementary DNABiochemical propertiesGTPMss4ProteinEnhance functionDifferent conformationsYeast6RAS2DSS4