2022
RENALASE: DISCOVERY, BIOLOGY, AND THERAPEUTIC APPLICATIONS.
Desir GV. RENALASE: DISCOVERY, BIOLOGY, AND THERAPEUTIC APPLICATIONS. Transactions Of The American Clinical And Climatological Association 2022, 132: 117-125. PMID: 36196172, PMCID: PMC9480547.Peer-Reviewed Original ResearchConceptsChronic kidney diseaseStage renal diseaseCardiovascular complicationsOrgan survivalRenal diseaseAcute injuryKidney diseaseChronic injurySignificant burdenRenalaseStressful stimuliPeptide agonistsNicotinamide adenine dinucleotideMitochondrial functionInjuryEnergy metabolismDiseaseTherapeutic applicationsAdenine dinucleotideCellsComplicationsPathophysiologyAgonistsKidneyPancreas
2005
Molecular Diversity and Regulation of Renal Potassium Channels
Hebert SC, Desir G, Giebisch G, Wang W. Molecular Diversity and Regulation of Renal Potassium Channels. Physiological Reviews 2005, 85: 319-371. PMID: 15618483, PMCID: PMC2838721, DOI: 10.1152/physrev.00051.2003.Peer-Reviewed Original ResearchConceptsRenal potassium channelsAnimal cellsCell movementDistinct functionsMolecular diversitySuccessful cloningRenal tubule epithelial cellsExcitable cellsSingle-channel analysisBiophysical propertiesMembrane potentialTubule epithelial cellsEpithelial cellsPotassium channelsRegulationCell volumeCellsImportant roleCloningTubule cellsPlantsDiversitySignificant progressFunction
1995
Molecular characterization of voltage and cyclic nucleotide-gated potassium channels in kidney
Desir G. Molecular characterization of voltage and cyclic nucleotide-gated potassium channels in kidney. Kidney International 1995, 48: 1031-1035. PMID: 8569064, DOI: 10.1038/ki.1995.386.Peer-Reviewed Original ResearchConceptsRenal K channelsMolecular characterizationInitial molecular characterizationPotassium channelsMammalian cellsMembrane proteinsMolecular biologyCell membraneK channelsDiverse groupPhysiologic roleKinetic propertiesPotential physiologic rolePassive movementBiologyProteinPhysiologyKidneyMembraneCharacterizationCellsExtensive data