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J. Biol. Chem., Vol. 259, Issue 21, 13123-13130, 11, 1984

The ATP-to-oxygen stoichiometries of oxidative phosphorylation by rat liver mitochondria. An analysis of ADP-induced oxygen jumps by linear nonequilibrium thermodynamics

JJ Lemasters

Uncertainty exists as to the proton stoichiometries of mitochondrial oxidative phosphorylation and consequently as to the ATP stoichiometries. In rat liver mitochondria, ADP/O ratios were determined from the total and extra oxygen consumed during ADP- stimulated respiration under conditions of quantitative conversion of ADP to ATP. For succinate, glutamate plus malate, 3-hydroxybutyrate, and 2-oxoglutarate, respectively, ADP/total O was 1.71, 2.71, 2.61, and 3.45. ADP/extra O was 2.03, 3.04, 3.23, and 4.15. The results were interpreted in terms of linear nonequilibrium thermodynamics. It was shown that ADP/extra O = Z/q where Z is the phenomenological stoichiometry and q is the degree of coupling. q was determined from the dependence of respiratory rate on delta Gp, the phosphorylation potential, and was about 0.98 for all substrates. The results were consistent with ideal ATP/O stoichiometries of 2 for succinate, 3 for glutamate plus malate, 3 or 3 1/4 for 3-hydroxybutyrate, and 4 for 2- oxoglutarate. Taking into account the oxidation-reduction free-energy changes measured across Sites 1 + 2 at static head (J.J. Lemasters, R. Grunwald, and R.K. Emaus J. Biol. Chem. 259, 3058-3063), an ideal ATP/O stoichiometry of 3 1/4 for 3-hydroxybutyrate is proposed. The lower ATP/O for glutamate plus malate is then accounted for by proton translocation linked to glutamate/aspartate exchange. The data suggest a new 13-proton scheme of chemiosmotic coupling in which proton stoichiometries are 3 for the F1Fo-ATPase, 1 for the exchange of ATP for ADP and Pi, and 5, 4, and 4 for Sites 1, 2, and 3.
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