1987
Electrochemical analysis of renal Na+-glucose cotransport in salamander proximal tubules
Morgunov N, Boulpaep E. Electrochemical analysis of renal Na+-glucose cotransport in salamander proximal tubules. American Journal Of Physiology 1987, 252: f154-f169. PMID: 3812699, DOI: 10.1152/ajprenal.1987.252.1.f154.Peer-Reviewed Original ResearchConceptsLuminal glucoseProximal tubulesFavorable chemical gradientFavorable electrical gradientSodium concentrationSodium-glucose cotransporterIntracellular sodium activityElectrogenic responseSodium activityMM D-glucoseMembrane potentialSalamander proximal tubuleLuminal perfusateOmega X cm2Glucose cotransportGlucose concentrationLuminal membranePhysiological rangeX cm2Luminal membrane potentialGlucoseD-glucoseTubulesLuminal membrane resistancePerfusate
1982
Electrical properties of chloride transport across theNecturus proximal tubule
Guggino W, Boulpaep E, Giebisch G. Electrical properties of chloride transport across theNecturus proximal tubule. The Journal Of Membrane Biology 1982, 65: 185-196. PMID: 7062339, DOI: 10.1007/bf01869962.Peer-Reviewed Original Research
1981
Isolated perfused salamander proximal tubule. II. Monovalent ion replacement and rheogenic transport
Sackin H, Boulpaep E. Isolated perfused salamander proximal tubule. II. Monovalent ion replacement and rheogenic transport. American Journal Of Physiology 1981, 241: f540-f555. PMID: 7304748, DOI: 10.1152/ajprenal.1981.241.5.f540.Peer-Reviewed Original ResearchIsolated perfused salamander proximal tubule: methods, electrophysiology, and transport
Sackin H, Boulpaep E. Isolated perfused salamander proximal tubule: methods, electrophysiology, and transport. American Journal Of Physiology 1981, 241: f39-f52. PMID: 7246773, DOI: 10.1152/ajprenal.1981.241.1.f39.Peer-Reviewed Original ResearchThe rheogenic nature of sodium transport in leaky epithelia studied by equivalent circuit analysis.
Sackin H, Boulpaep E. The rheogenic nature of sodium transport in leaky epithelia studied by equivalent circuit analysis. Progress In Clinical And Biological Research 1981, 73: 57-66. PMID: 6275400.Peer-Reviewed Original Research
1976
Electrical phenomena in the nephron
Boulpaep E. Electrical phenomena in the nephron. Kidney International 1976, 9: 88-102. PMID: 940266, DOI: 10.1038/ki.1976.14.Peer-Reviewed Original ResearchConceptsSingle barrierAvailable experimental dataIon movementElectrical conductanceElectrical phenomenaSingle cell membraneSingle membrane levelElectric currentElectrical propertiesPotential differenceExperimental dataDiffusion barrierDistinctive physical propertiesElectrical characteristicsPhysical propertiesIndividual cell membranesDiffusion boundariesElectrical behaviorPotential gradientMembrane approachConjugate forcesBiological membranesElectrochemical potential gradientTransport processesMicroscopic level
1975
Models for coupling of salt and water transport; Proximal tubular reabsorption in Necturus kidney.
Sackin H, Boulpaep E. Models for coupling of salt and water transport; Proximal tubular reabsorption in Necturus kidney. The Journal Of General Physiology 1975, 66: 671-733. PMID: 1104761, PMCID: PMC2226230, DOI: 10.1085/jgp.66.6.671.Peer-Reviewed Original ResearchConceptsCoupling of saltWater transportDifferent boundary conditionsChemical driving forceSolvent fluxWater fluxTransport parametersBoundary conditionsGradient modelConcentration profilesOsmotic driving forceDriving forceIsotonic transportNet transportDiamondFluxTransportForceWaterFirst modelSecond modelModel
1972
Effect of intraluminal pressure on proximal tubular sodium reabsorptin. A shrinking drop micropuncture study.
Grandchamp A, Boulpaep E. Effect of intraluminal pressure on proximal tubular sodium reabsorptin. A shrinking drop micropuncture study. The Yale Journal Of Biology And Medicine 1972, 45: 275-88. PMID: 4638650, PMCID: PMC2591956.Peer-Reviewed Original Research