2001
Opposing Changes in Phosphorylation of Specific Sites in Synapsin I During Ca2+-Dependent Glutamate Release in Isolated Nerve Terminals
Jovanovic J, Sihra T, Nairn A, Hemmings H, Greengard P, Czernik A. Opposing Changes in Phosphorylation of Specific Sites in Synapsin I During Ca2+-Dependent Glutamate Release in Isolated Nerve Terminals. Journal Of Neuroscience 2001, 21: 7944-7953. PMID: 11588168, PMCID: PMC6763853, DOI: 10.1523/jneurosci.21-20-07944.2001.Peer-Reviewed Original ResearchConceptsDependent dephosphorylationProtein phosphatase 2AMultiple protein kinasesPhosphorylation site 1Protein phosphatase 2BSynapsin IPhosphatase 2APhosphorylation sitesPhosphatase 2BSynapsin functionProtein kinaseDependent phosphorylationSynapsin I phosphorylationDephosphorylation processNeuronal phosphoproteinSynapsin I.Synaptic vesiclesCalcineurin activityPhosphorylationI phosphorylationDephosphorylationNeurotransmitter releaseSpecific sitesExcellent substrateSite 1
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
1989
Role of protein phosphorylation in neuronal signal transduction1
Hemmings H, Nairn A, McGuinness T, Huganir R, Greengard P. Role of protein phosphorylation in neuronal signal transduction1. The FASEB Journal 1989, 3: 1583-1592. PMID: 2493406, DOI: 10.1096/fasebj.3.5.2493406.Peer-Reviewed Original ResearchConceptsProtein phosphorylationSubstrate proteinsSignal transductionProtein kinaseMolecular mechanismsProtein phosphatase inhibitorSignal transduction processesPrecise molecular mechanismsAdditional molecular mechanismsSignal transduction1Extracellular signalsPhosphatase inhibitorAdditional phosphoproteinsPhysiological processesTransduction processesNicotinic acetylcholine receptorsPhosphorylationSynaptic transmissionNervous systemSynapsin IExcitable cellsDARPP-32TransductionKinaseNeurotransmitter release