Kinetics of cytochrome c oxidase from yeast. Membrane-facilitated electrostatic binding of cytochrome c showing a specific interaction with cytochrome c oxidase and inhibition by ATP (With an appendix on the occurrence of two-dimensional diffusion of cytochrome c on the membrane surface) |
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Authors: | H. Roberts B. Hess |
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Affiliation: | Max-Planck-Institut für Ernährungsphysiologie, Rheinlanddamm 201, 4600 Dortmund 1 G.F.R. |
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Abstract: | The steady-state kinetics of purified yeast cytochrome c oxidase were investigated at low ionic strength where the electrostatic interaction with cytochrome c is maximized. In 10 mM cacodylate/Tris (pH 6.5) the oxidation kinetics of yeast iso-1-cytochrome c were sigmoidal with a Hill coefficient of 2.35, suggesting cooperative binding. The half-saturation point was 1.14 μM. Horse cytochrome c exhibited Michaelis-Menten kinetics with a higher affinity (Km = 0.35 μM) and a 100% higher maximal velocity.In 67 mM phosphate the Hill coefficient for yeast cytochrome c decreased to 1.42, and the species differences in Hill coefficients were lessened. Under the latter conditions, a yeast enzyme preparation partially depleted of phospholipids was activated on addition of diphosphatidylglycerol liposomes. When the enzyme was incorporated into sonicated yeast promitochondrial particles the apparent Km for horse cytochrome c was considerably lower than the value for the isolated enzyme.ATP was found to inhibit both the isolated oxidase and the membrane-bound enzyme. With the isolated enzyme in 10 mM cacodylate/Tris, 3 mM ATP increased the half-saturation point with yeast cytochrome c 3-fold, without altering the maximal velocity or the Hill coefficient. 67 mM phosphate abolished the inhibition of the isolated oxidase by ATP.The increase in affinity for cytochrome c produced by binding the oxidase to the membrane was not observed in the presence of 3 mM ATP, with the result that the membrane-bound enzyme was more sensitive to inhibition by ATP. ADP was a less effective inhibitor than ATP, and did not prevent the inhibition by ATP.It is proposed that non-specific electrostatic binding of cytochrome c to phospholipid membranes, followed by rapid lateral diffusion, is responsible for the dependence of the affinity on the amount and nature of the phospholipids and on the ionic strength.ATP may interfere with the membrane-facilitated binding of cytochrome c by a specific electrostatic interaction with the membrane or by binding to cytochrome c. |
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Keywords: | TMPD FCCP |
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