2005
Quantitative Modeling of Chloride Conductance in Yeast TRK Potassium Transporters
Rivetta A, Slayman C, Kuroda T. Quantitative Modeling of Chloride Conductance in Yeast TRK Potassium Transporters. Biophysical Journal 2005, 89: 2412-2426. PMID: 16040756, PMCID: PMC1366741, DOI: 10.1529/biophysj.105.066712.Peer-Reviewed Original ResearchConceptsTrk proteinTrk potassium transportersPotassium transportersYeast spheroplastsPlasma membraneCentral poreNegative membrane voltagesProteinActive accumulationChloride conductanceChloride currentsMembrane dielectricMembrane voltageSaccharomycesSpheroplastsFungiPlantsTransportersBacteriaConductanceMembrane slope conductanceHypothetical structural modelStructural modelMembraneSlope conductance
1998
Electrophysiology in the eukaryotic model cell Saccharomyces cerevisiae
Bertl A, Bihler H, Kettner C, Slayman CL. Electrophysiology in the eukaryotic model cell Saccharomyces cerevisiae. Pflügers Archiv - European Journal Of Physiology 1998, 436: 999-1013. PMID: 9799419, DOI: 10.1007/s004240050735.Peer-Reviewed Original ResearchConceptsYeast plasma membranePlasma membraneMembrane proteinsYeast membranesFunctional analysisHeterologous membrane proteinsFacile genetic manipulationDetailed functional analysisPreliminary functional analysisYeast vacuolar membraneGigaseal formationHeterologous genesYeast vacuoleCytoplasmic proteinsVacuolar membraneFungal proteinsGenetic manipulationSpecific proteinsPolyploid strainsSaccharomycesNative proteinYeastProtoplastsIon channelsProtein