1990
Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: transepithelial potential measurements.
Bock J, Boulpaep E. Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: transepithelial potential measurements. The Yale Journal Of Biology And Medicine 1990, 63: 529-47. PMID: 2092412, PMCID: PMC2589409.Peer-Reviewed Original Research4-Acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic AcidAmbystomaAnimalsBicarbonatesBiological Transport, ActiveChloridesEpitheliumFemaleIn Vitro TechniquesKidney Tubules, ProximalMembrane PotentialsPerfusion
1983
Chloride transport across the basolateral cell membrane of theNecturus proximal tubule: Dependence on bicarbonate and sodium
Guggino W, London R, Boulpaep E, Giebisch G. Chloride transport across the basolateral cell membrane of theNecturus proximal tubule: Dependence on bicarbonate and sodium. The Journal Of Membrane Biology 1983, 71: 227-240. PMID: 6302263, DOI: 10.1007/bf01875464.Peer-Reviewed Original ResearchMeSH Keywords4-Acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic AcidAmmonium ChlorideAnimalsBicarbonatesBiological Transport, ActiveCell MembraneChloridesFemaleHydrogen-Ion ConcentrationIn Vitro TechniquesKidney Tubules, ProximalMaleModels, BiologicalNecturusPotassiumSodiumConceptsBasolateral cell membraneProximal tubule cellsBasolateral solutionNH4Cl exposurePH-sensitive microelectrodesProximal tubulesTubule cellsPerfusion solutionCell membraneIntracellular chlorideTheNecturus proximal tubuleIntracellular pHApical cell membraneNH4Cl treatmentChloride transportChloride activityKidney