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  • Title: ADP- and K+-sensitive phosphorylated intermediate of Na,K-ATPase.
    Author: Yoda S, Yoda A.
    Journal: J Biol Chem; 1986 Jan 25; 261(3):1147-52. PubMed ID: 3003056.
    Abstract:
    In the phosphoenzyme (EP) of the electric eel Na,K-ATPase, the sum of the ADP-sensitive EP and the K+-sensitive EP exceeds 150% of EP in the presence of 100 mM Na+. This unusual phenomenon can be explained by the formation of three phosphoenzymes: ADP-sensitive K+-insensitive (E1P), K+-sensitive ADP-insensitive (E2P), and ADP- and K+-sensitive (E*P) phosphoenzymes, as proposed by Nørby et al. (Nørby, J. G., Klodos, I., and Christiansen, N. O. (1983) J. Gen. Physiol. 82, 725-757). By applying a simple approximation method for the assay of E1P, E*P, and E2P, it was found that the phosphorylation of the enzyme was much faster than the conversion among each EP and the phosphoenzyme changed as E1NaATP----E1P----E*P----E2P. In the fragmental eel enzyme, the step of E*P to E2P was much slower than the step of E1P to E*P. In the steady state, the E1P was predominant above 400 mM Na+, whereas E*P and E2P were predominant between 60 and 300 mM Na+ and below 60 mM Na+, respectively. The characteristic difference of the eel enzyme from the beef brain enzyme and probably from the kidney enzyme seems to be that the dissociation constant of Na+ on the E1P-E*P equilibrium is higher than that on the E*P-E2P. The E*P and E1P both interacted with ADP to form ATP without formation of inorganic phosphate in the absence of free Mg2+. In the Na,K-ATPase proteoliposomes, the vesicle membrane interfered with the conversion of E1P to E2P, especially the change of E1P to E*P, and furthermore, the E1P content increased. This barrier effect was partially counteracted by monensin or carbonyl cyanide m-chlorophenylhydrazone. Oligomycin reacted with E1P and probably with E*P, therefore inhibiting their conversion to E2P and interaction with K+.
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