2000
Cellular Mechanisms Regulating Protein Phosphatase-1 A KEY FUNCTIONAL INTERACTION BETWEEN INHIBITOR-2 AND THE TYPE 1 PROTEIN PHOSPHATASE CATALYTIC SUBUNIT*
Frederick D, Huang H, Yang J, Helps N, Cohen P, Nairn A, DePaoli-Roach A, Tatchell K, Connor J, Shenolikar S. Cellular Mechanisms Regulating Protein Phosphatase-1 A KEY FUNCTIONAL INTERACTION BETWEEN INHIBITOR-2 AND THE TYPE 1 PROTEIN PHOSPHATASE CATALYTIC SUBUNIT*. Journal Of Biological Chemistry 2000, 275: 18670-18675. PMID: 10748125, DOI: 10.1074/jbc.m909312199.Peer-Reviewed Original ResearchConceptsPP1 catalytic subunitCatalytic subunitType 1 protein phosphatase catalytic subunitAmino acidsProtein phosphatase catalytic subunitN-terminusProtein serine/threonineN-terminal 35 amino acidsInhibitor 2Phosphatase catalytic subunitTwo-hybrid analysisNovel regulatory interactionsProtein phosphatase 1Serine/threoninePull-down assaysSite-directed mutagenesisN-terminal sequencePP1 mutantsKey functional interactionsPP1 inhibitorPP1 enzymesPP1 inhibitionPhosphatase 1Regulatory interactionsSaccharomyces cerevisiae
1992
The role of protein phosphatases in synaptic transmission, plasticity and neuronal development
Nairn A, Shenolikar S. The role of protein phosphatases in synaptic transmission, plasticity and neuronal development. Current Opinion In Neurobiology 1992, 2: 296-301. PMID: 1322750, DOI: 10.1016/0959-4388(92)90118-5.Peer-Reviewed Original ResearchConceptsNeuronal developmentSerine/threonineRole of proteinsProtein phosphataseProtein dephosphorylationMolecular cloningTyrosine proteinIon channelsNervous systemPast year significant advancesNeuronal functionNeurotransmitter receptorsSpecific neuronsProteinSelective inhibitorEnzymeYears significant advancesSynaptic transmissionDephosphorylationCloningThreonineRolePhosphataseRegulationPlasticity