Mutational analysis of Glu-327 of Na+-K+-ATPase reveals stimulation of86Rb+uptake by external K+
- 1 December 1997
- journal article
- research article
- Published by American Physiological Society in American Journal of Physiology-Cell Physiology
- Vol. 273 (6) , C2065-C2079
- https://doi.org/10.1152/ajpcell.1997.273.6.c2065
Abstract
A competition assay of86Rb+uptake in HeLa cells transfected with ouabain-resistant Na+-K+-ATPase mutants revealed a stimulation of86Rb+uptake at low external concentrations (1 mM) of competitor (K+). Of the models that were tested, those that require that two K+ be bound before transport occurs gave the worst fits. Random and ordered binding schemes described the data equally well. General models in which both binding and transport were allowed to be cooperative yielded parameter errors larger than the parameters themselves and could not be utilized. Models that assumed noncooperative transport always showed positive cooperativity in binding. E327Q and E327L mutated forms of rat α2 had lower apparent affinities for the first K+ bound than did wild-type rat α2 modified to be ouabain resistant. The mutations did not affect the apparent affinity of the second K+ bound. Models that assumed noncooperativity in binding always showed positively cooperative transport, i.e., enzymes with two K+ bound had a higher flux than those with one K+ bound. Increases in external Na+ decreased the apparent affinity for K+ for all models and decreased the ratio of the apparent influx rate constants for E327L.Keywords
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