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
1987
Hydrodynamic properties of the chromaffin granule hydrogen ion pumping adenosinetriphosphatase.
Dean G, Nelson P, Agnew W, Rudnick G. Hydrodynamic properties of the chromaffin granule hydrogen ion pumping adenosinetriphosphatase. Biochemistry 1987, 26: 2301-5. PMID: 2887199, DOI: 10.1021/bi00382a034.Peer-Reviewed Original ResearchConceptsGel permeation chromatographyCm3/Permeation chromatographyHydrodynamic propertiesSedimentation equilibrium centrifugationMixed micellesHydrogen ionsMicellesStokes radiusBovine adrenal chromaffin granulesIntrinsic membrane proteinsDetergentsParticlesParticle volumePropertiesIonsEquilibrium centrifugationChromatographyMitochondrial F1F0-ATPaseAdrenal chromaffin granulesDaltonsProtein componentsMembrane proteinsProtein V