Cytochrome C oxidase from eucaryotes but not from procaryotes is allosterically inhibited by ATP

The activity of reconstituted cytochrome c oxidase from bovine heart but not from Rhodobacter sphaeroides is allosterically inhibited by intraliposomal ATP, which binds to subunit IV. The activity of cytochrome c oxidase of wild‐type yeast and of a subunit VIa‐deleted yeast mutant, measured with Tween 20‐solubilized mitochondria in the presence of an ATP‐regenerating system, was also allosterically inhibited by ATP, indicating the general validity of this mechanism of “respiratory control” in eucaryotic cytochrome c oxidases (Arnold and Kadenbach, Eur. J. Biochem. (1997) 249, 350–354). Deletion of subunit Via changes the biphysic into monophysic kinetics of the yeast enzyme in the presence of ADP. A tenfold higher amount of horse heart cytochrome c, as compared to yeast cytochrome c, was required to relieve the ATP inhibition of the yeast enzyme.