2004
RGM and its receptor neogenin regulate neuronal survival
Matsunaga E, Tauszig-Delamasure S, Monnier PP, Mueller BK, Strittmatter SM, Mehlen P, Chédotal A. RGM and its receptor neogenin regulate neuronal survival. Nature Cell Biology 2004, 6: 749-755. PMID: 15258591, DOI: 10.1038/ncb1157.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisAvian ProteinsCaspasesCell SurvivalCells, CulturedChick EmbryoChickensDown-RegulationEnzyme ActivationGene Expression Regulation, DevelopmentalGreen Fluorescent ProteinsImmunohistochemistryIn Situ HybridizationLuminescent ProteinsMembrane ProteinsMutagenesis, Site-DirectedNeuronsRatsRNA, Small InterferingConceptsRepulsive guidance moleculeNeural tubePro-apoptotic activityAxon guidance proteinCytoplasmic domainImmortalized neuronal cellsGene transfer technologyDependence receptorsCell deathGuidance proteinsNeuronal cellsNeogenin receptorGuidance moleculesNeuronal survivalRetinal axonsChick embryosNeogeninReceptor neogeninExpressionCaspasesReceptorsTransfer technologyEmbryosProteinApoptosis
2003
Structural bases for CRMP function in plexin‐dependent semaphorin3A signaling
Deo RC, Schmidt EF, Elhabazi A, Togashi H, Burley SK, Strittmatter SM. Structural bases for CRMP function in plexin‐dependent semaphorin3A signaling. The EMBO Journal 2003, 23: 9-22. PMID: 14685275, PMCID: PMC1271659, DOI: 10.1038/sj.emboj.7600021.Peer-Reviewed Original ResearchMeSH KeywordsAlanineAmino Acid SequenceAmino Acid SubstitutionAnimalsCell Adhesion MoleculesCell LineChick EmbryoChlorocebus aethiopsCOS CellsCrystallography, X-RayGanglia, SpinalHumansHydrogen BondingImmunophilinsMiceModels, MolecularMolecular Sequence DataMutagenesis, Site-DirectedNerve Tissue ProteinsPhosphoproteinsProtein Structure, SecondaryProtein Structure, TertiaryReceptors, Cell SurfaceRecombinant Fusion ProteinsSemaphorin-3ASequence Homology, Amino AcidSignal TransductionStructure-Activity RelationshipConceptsCollapsin response mediator proteinsStructure-based mutagenesisCOS-7 cellsSurface-exposed residuesTetrameric assemblyPhysical complexAxonal specificationMediator proteinsStructural basisFunctional domainsAlanine substitutionsActive proteinCytosolic phosphoproteinNeuronal differentiationAxonal repulsionAxonal guidanceReceptor componentsProteinStructural viewX-ray crystal structureCRMP1Sema3ACell contractionCellsNP1
2002
Truncated Soluble Nogo Receptor Binds Nogo-66 and Blocks Inhibition of Axon Growth by Myelin
Fournier AE, Gould GC, Liu BP, Strittmatter SM. Truncated Soluble Nogo Receptor Binds Nogo-66 and Blocks Inhibition of Axon Growth by Myelin. Journal Of Neuroscience 2002, 22: 8876-8883. PMID: 12388594, PMCID: PMC6757674, DOI: 10.1523/jneurosci.22-20-08876.2002.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAxonsCell LineChick EmbryoGPI-Linked ProteinsGrowth ConesHumansKidneyMiceMolecular Sequence DataMutagenesis, Site-DirectedMyelin ProteinsMyelin SheathNeuritesNogo ProteinsNogo Receptor 1Peptide FragmentsProtein BindingProtein Structure, TertiaryReceptors, Cell SurfaceRepetitive Sequences, Amino AcidRetinaSequence DeletionSignal TransductionSolubilityConceptsChick retinal ganglion cellsRetinal ganglion cellsOutgrowth inhibitionMechanism of NogoGanglion cellsNogo receptorOutgrowth inhibitorViral infectionMyelin inhibitionInhibitory signalingNogo-66Axon growthCNS myelinAxon outgrowthMyelinRegenerative growthNogoCOS-7 cellsInhibitionAlkaline phosphataseReceptorsNGR
1998
GAP‐43 Augmentation of G Protein‐Mediated Signal Transduction Is Regulated by Both Phosphorylation and Palmitoylation
Nakamura F, Strittmatter P, Strittmatter S. GAP‐43 Augmentation of G Protein‐Mediated Signal Transduction Is Regulated by Both Phosphorylation and Palmitoylation. Journal Of Neurochemistry 1998, 70: 983-992. PMID: 9489717, DOI: 10.1046/j.1471-4159.1998.70030983.x.Peer-Reviewed Original ResearchConceptsG protein activationG-protein mediated signal transductionProtein kinase C phosphorylation sitesG-protein-coupled receptor stimulationKinase C phosphorylation sitesProtein activationG-protein-coupled signalsNeuronal protein GAP-43C phosphorylation sitesSignal transduction processesProtein kinase CGrowth cone membranePhosphorylation sitesSignal transductionXenopus laevis oocytesGAP-43Transduction processesKinase CResidues 41Second domainLaevis oocytesCone membraneCalmodulinProtein GAP-43Oocytes
1994
Activated mutants of the alpha subunit of G(o) promote an increased number of neurites per cell
Strittmatter S, Fishman M, Zhu X. Activated mutants of the alpha subunit of G(o) promote an increased number of neurites per cell. Journal Of Neuroscience 1994, 14: 2327-2338. PMID: 8158271, PMCID: PMC6577129, DOI: 10.1523/jneurosci.14-04-02327.1994.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceCell LineChlorocebus aethiopsDNA PrimersDose-Response Relationship, DrugGTP-Binding ProteinsIntercellular Signaling Peptides and ProteinsKineticsMacromolecular SubstancesMolecular Sequence DataMutagenesis, Site-DirectedNeuritesNeuroblastomaPC12 CellsPeptidesPertussis ToxinPoint MutationTransfectionTumor Cells, CulturedVirulence Factors, BordetellaWasp VenomsConceptsAlpha oNumber of neuritesPertussis toxin-sensitive G proteinToxin-sensitive G proteinGrowth conesAlpha subunitG proteinsNeurite outgrowthTotal neurite lengthN1E-115 cellsAlpha i2Activated alpha subunitNeuroblastoma cellsNeurite numberNeurite lengthNeuronal growth conesAlpha sOncogenic mutationsActivation stateO mutantsActivationNeuritesCellsPoint mutationsSubunits