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  • Title: Mechanisms by which reactions catalyzed by chloroplast coupling factor 1 are inhibited: ATP synthesis and ATP-H2O oxygen exchange.
    Author: Spencer JG, Wimmer MJ.
    Journal: Biochemistry; 1985 Jul 16; 24(15):3884-90. PubMed ID: 2864951.
    Abstract:
    The ATP-H2O back-exchange reaction catalyzed by membrane-bound chloroplast coupling factor 1 (CF1) in the light is known to be extensive; each reacting ATP molecule nearly equilibrates its gamma-PO3 oxygens with H2O before it dissociates from the enzyme. Pi, ASi, ADP, and GDP, alternate substrates of photophosphorylation, each inhibit the exchange reaction. At all concentrations of these substrate/inhibitor molecules tested, the high extent of exchange per molecule of ATP that reacts remains the same, while the number of ATP molecules experiencing exchange decreases. Thus, these inhibitors appear to act in a competitive-type manner, decreasing ATP turnover, as opposed to modulating the rate constants responsible for the partitioning of E X ATP during the exchange reaction. This is consistent with the identity of CF1 catalytic sites for ATP-H2O back-exchange and ATP synthesis. Carbonyl cyanide m-chlorophenylhydrazone and NH4Cl (uncouplers of photophosphorylation) and phloridzin (an energy-transfer inhibitor) also lower the rate of ATP-H2O back-exchange; they too are found to act by decreasing the turnover of the ATP pool, not the extent of exchange per reacting ATP molecule. The extent of ATP-H2O forward oxygen exchange, which occurs during net ATP synthesis prior to product dissociation, is unaffected by uncouplers, whether catalyzed by native CF1 (ATPase latent) or the dithiothreitol/light-activated ATPase form. The mode of NH4Cl inhibition of the ATP synthesis reaction, therefore, is not through a change in the partitioning of the E X ATP complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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