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pubmed:abstractText |
Uptakes of radioactive C1- or 1- by gastric microsomal vesicles were stimulated 2- to 8-fold by AtP. The sensitivity of those uptakes to a C1- in equilibrium OH- ionophore and to osmotic swelling suggested they were due to transport rather than to binding. The ATP effect was labile, but dithiothreitol and methanol improved its stability. The stimulation of anion transport required magnesium; GTP and UTP were less potent than ATP whereas ADP and AMP had no effect. The apparent Km for ATP was estimated to be 2 X 10(-4) M at 22 degrees C. The rate of the ATP-dependent transport showed saturation-type kinetics, with half-maximal uptake at 10 mM for I- and 15 mM for C1-. Nonradioactive C1-, I-, and SCN- competed with 125I- uptake while SO42- did not. K+ valinomycin increased the ATP-dependent C1- uptake. The thermostable inhibitor of cAMP-dependent protein kinases inhibited the effect of ATP. These results suggest the existence of an anion conductance, permeant to C1-, I-, and SCN- and nonpermeant to SO42-, which could be linked to a cAMP-dependent protein kinase.
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