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Studies on conformational changes in Na,K-ATPase labeled with 5-iodoacetamidofluorescein
Authors:M Steinberg  S J Karlish
Affiliation:Department of Pharmacology, State University of New York Health Science Center, Syracuse 13210.
Abstract:The rates of individual steps in the reaction cycle of dog kidney Na,K-ATPase labeled with iodoacetamidofluorescein (IAF) were measured using the fluorescence stopped-flow technique. The maximal rate of the fluorescence quenching accompanying ATP hydrolysis at 20 degrees C in the presence of K+ is 66.3 s-1, while the turnover rate in the same conditions is 15.5 s-1. The rate without K+ is slightly lower. Unexpectedly, at very high ionic strength, K+ accelerates the rate 2-fold. The fluorescence change appears to be associated with the E1P----E2P transition. The results are consistent with the classical Albers-Post scheme but do not support recent criticisms that E1P is kinetically incompetent in the presence of Na+ plus K+. As expected, in the absence of ATP the rate of E2(K)----E1Na was very slow (0.2 s-1) but was greatly accelerated by ATP (maximal rate 15.9 s-1) with low affinity (K0.5 = 196 microM). It was concluded that E2(K)----E1 is the slowest step of the cycle, even at nonlimiting ATP concentrations. The rate of E1K----E2(K) for both IAF- and fluorescein 5'-isothiocyanate-labeled enzyme was stimulated by K+ acting with low affinity, but not at all by ATP at 5 microM. Whereas the maximal rate with IAF-enzyme (271 s-1) was similar to previous work, the K+ affinity was significantly higher. Fluorescence signals accompanying hydrolysis of acetyl phosphate with both IAF- and fluorescein 5'-isothiocyanate-labeled enzyme have similar rates, 5.25 s-1 and 4.06 s-1, respectively. A species difference was observed between dog and pig kidney Na,K-ATPase in that both enzymes are labeled with IAF but only in dog enzyme were conformational transitions associated with fluorescence changes. Therefore, the IAF-labeled dog kidney enzyme is the preparation of choice for measuring fluorescence changes accompanying ATP hydrolysis.
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