1998
[16] Ion-coupled neurotransmitter transport: Thermodynamic vs. kinetic determinations of stoichiometry
Rudnick G. [16] Ion-coupled neurotransmitter transport: Thermodynamic vs. kinetic determinations of stoichiometry. Methods In Enzymology 1998, 296: 233-247. PMID: 9779452, DOI: 10.1016/s0076-6879(98)96018-9.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsNumber of ionsKinetic determinationMolecular machinesCharge movesIonsLipid bilayersNeurotransmitter moleculesMoleculesInput of energySteady-state distributionLow concentrationsChargeElectrical potentialMembraneIon gradientsStoichiometryHigh concentrationsUltimate concentrationNaConcentrationEnergyBilayersNeurotransmitter transportersNumber of NaNeurotransmitter transport
1990
Energetics of reserpine binding and occlusion by the chromaffin granule biogenic amine transporter.
Rudnick G, Steiner-Mordoch S, Fishkes H, Stern-Bach Y, Schuldiner S. Energetics of reserpine binding and occlusion by the chromaffin granule biogenic amine transporter. Biochemistry 1990, 29: 603-8. PMID: 2140052, DOI: 10.1021/bi00455a002.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphatasesAmmonium SulfateBinding SitesBiogenic AminesCarbonyl Cyanide m-Chlorophenyl HydrazoneCarrier ProteinsChloridesChromaffin GranulesChromaffin SystemDetergentsElectrochemistryHydrogen-Ion ConcentrationIonophoresKineticsLigandsMembrane PotentialsReserpineThermodynamicsThiocyanatesTime FactorsUreaConceptsBiogenic amine transportersReserpine bindingChromaffin granule membrane vesiclesAmine transportersAmine transportMembrane vesiclesDead-end complexIon translocationTransportersSubstrate moleculesBindingM ureaDelta pHTranslocationTriton XSodium dodecyl sulfateNeutral substrate moleculesTransmembraneHigh-affinity site