2000
The Dopamine/D1 Receptor Mediates the Phosphorylation and Inactivation of the Protein Tyrosine Phosphatase STEP via a PKA-Dependent Pathway
Paul S, Snyder G, Yokakura H, Picciotto M, Nairn A, Lombroso P. The Dopamine/D1 Receptor Mediates the Phosphorylation and Inactivation of the Protein Tyrosine Phosphatase STEP via a PKA-Dependent Pathway. Journal Of Neuroscience 2000, 20: 5630-5638. PMID: 10908600, PMCID: PMC6772528, DOI: 10.1523/jneurosci.20-15-05630.2000.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsCatalytic DomainCorpus StriatumCyclic AMP-Dependent Protein KinasesEnzyme ActivationIn Vitro TechniquesMaleMolecular Sequence DataNeuronsPhosphoproteinsPhosphorus RadioisotopesPhosphorylationProtein Tyrosine PhosphatasesProtein Tyrosine Phosphatases, Non-ReceptorRatsRats, Sprague-DawleyReceptors, Dopamine D1Signal TransductionConceptsProtein tyrosine phosphatase familyCAMP-dependent protein kinaseTryptic phosphopeptide mappingPotential phosphorylation sitesUnique N-terminalProtein-protein interactionsMembrane-associated proteinsRole of phosphorylationTyrosine phosphatase familyAmino acid sequenceSite-directed mutagenesisAmino acid sequencingPKA-dependent pathwayTyrosine phosphatase STEPPhosphatase familyPhosphopeptide mappingPhosphorylation sitesAlternative splicingSubcellular compartmentsProtein kinaseTerminal domainEquivalent residuesCytosolic proteinsSpecific residuesAcid sequence
1991
Regulation by phosphorylation of reversible association of a myristoylated protein kinase C substrate with the plasma membrane
Thelen M, Rosen A, Nairn A, Aderem A. Regulation by phosphorylation of reversible association of a myristoylated protein kinase C substrate with the plasma membrane. Nature 1991, 351: 320-322. PMID: 2034276, DOI: 10.1038/351320a0.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAutoradiographyCell MembraneEnzyme ActivationEthers, CyclicHumansIntracellular Signaling Peptides and ProteinsKineticsMembrane ProteinsMyristic AcidMyristic AcidsMyristoylated Alanine-Rich C Kinase SubstrateN-Formylmethionine Leucyl-PhenylalanineNeutrophilsOkadaic AcidPhosphorus RadioisotopesPhosphorylationProtein Kinase CProteinsTritiumConceptsProtein kinase CProtein kinase C substrateAlanine-rich C kinase substrateActin-membrane interactionsMembrane-bound substratesActin-binding proteinsSpecific PKC substrateC kinase substrateReceptor-mediated signalsMembrane targetingKinase substrateMembrane attachmentPKC substratePlasma membraneSubsequent dephosphorylationKinase CC substrateMARCKSNovel mechanismReversible associationProteinMembraneEffective bindingMyristoylationMacrophage activation
1990
Calcium/calmodulin-dependent protein kinase II increases glutamate and noradrenaline release from synaptosomes
Nichols R, Sihra T, Czernik A, Nairn A, Greengard P. Calcium/calmodulin-dependent protein kinase II increases glutamate and noradrenaline release from synaptosomes. Nature 1990, 343: 647-651. PMID: 2154695, DOI: 10.1038/343647a0.Peer-Reviewed Original ResearchConceptsNeurotransmitter releaseRat brain synaptosomesSquid giant synapseRelease of neurotransmittersNoradrenaline releaseGlutamate releaseNerve terminalsBrain synaptosomesNervous systemUnidentified neurotransmitterGiant synapseDependent protein kinase IIVertebrate nervous systemRats calciumProtein kinase IINeurotransmittersInduced releasePK IISynaptosomesCalcium-dependent protein phosphorylationGlutamateKinase IIReleaseNoradrenalineInitial rate