Na self inhibition of human epithelial Na channel: Temperature dependence and effect of extracellular proteases

Journal of General Physiology

Volumn 120, Issue 2, 2002, Pages 133-145

  Chraïbi, Ahmed ^a   Horisberger, Jean Daniel ^a  

^a University of Lausanne Departement de Pharmacologie et de Toxicologie   (Switzerland)

Author keywords

Activation energy; ENaC; Protease; Sodium transport; Trypsin

Indexed keywords

AMILORIDE; MEMBRANE RECEPTOR; PROTEINASE; RECEPTOR SUBUNIT; SODIUM; SODIUM CHANNEL; 4 CHLOROMERCURIBENZOIC ACID; BENZIMIDAZOLE DERIVATIVE; DRUG DERIVATIVE; ENZYME INHIBITOR; EPITHELIAL SODIUM CHANNEL; GUANINE; NOVOBIOCIN; THIOL REAGENT; TRYPSIN;

ANIMAL CELL; ARTICLE; CONTROLLED STUDY; EPITHELIUM CELL; EXTRACELLULAR SPACE; HUMAN; NONHUMAN; OOCYTE; PROTEIN EXPRESSION; SODIUM CONDUCTANCE; SODIUM CURRENT; TEMPERATURE DEPENDENCE; TRANSPORT KINETICS; XENOPUS; ANIMAL; BIOLOGICAL MODEL; DRUG EFFECT; HOMEOSTASIS; METABOLISM; TEMPERATURE; XENOPUS LAEVIS;

AMILORIDE; ANIMAL; BENZIMIDAZOLES; ENDOPEPTIDASES; ENZYME INHIBITORS; EXTRACELLULAR SPACE; GUANINE; HOMEOSTASIS; HUMAN; MODELS, BIOLOGICAL; NOVOBIOCIN; OOCYTES; P-CHLOROMERCURIBENZOIC ACID; SODIUM; SODIUM CHANNELS; SULFHYDRYL REAGENTS; SUPPORT, NON-U.S. GOV'T; TEMPERATURE; TRYPSIN; XENOPUS LAEVIS; ANIMALS; EPITHELIAL SODIUM CHANNEL; HUMANS;

EID: 0036023395     PISSN: 00221295     EISSN: None     Source Type: Journal    
DOI: 10.1085/jgp.20028612     Document Type: Article

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