The rate‐limiting step and nonhyperbolic kinetics in the oxidation of ferrocytochrome c catalyzed by cytochrome c oxidase

Abstract: The level of reduction of cytochrome a and cua during the oxidation of ferrocytochrome c has been determined in stopped‐flow experiments. Both components are partially reduced but become progressively more oxidized as the reaction proceeds. When all cytochrome c has been oxidized, cua is also completely oxidized, whereas cytochrome a is still partially reduced. These results can be simulated on the basis of a model which requires that the intramolecular electron transfer from cytochrome a and cua to cytochrome… Show more

“…Furthermore, the models ignore the requirement that a pump protein must exist in two different conformational states with different substrate affinities, as also observed experimentally. The models based on a nonproductive binding site (13,16) must assume that product dissociation is strictly rate limiting, but this is excluded by the observation that cytochrome a is always partially reduced in the steady state (14). (25, *).…”

“…Instead the existence of two active sites has generally been assumed (9,12), and an electrostatic model involving a single catalytic site and a second, nonproductive, binding site has also been proposed (13). In a recent paper (14) we have provided experimental evidence against the latter model and furthermore suggested that the nonhyper- bolic kinetics of cytochrome oxidase is a direct consequence of its function as a proton pump. It is not, however, sufficient to demonstrate this obligatory relation between proton pumping and substrate kinetics.…”

Electron-transport-driven proton pumps display nonhyperbolic kinetics: Simulation of the steady-state kinetics of cytochrome c oxidase

“…Furthermore, the models ignore the requirement that a pump protein must exist in two different conformational states with different substrate affinities, as also observed experimentally. The models based on a nonproductive binding site (13,16) must assume that product dissociation is strictly rate limiting, but this is excluded by the observation that cytochrome a is always partially reduced in the steady state (14). (25, *).…”

“…Instead the existence of two active sites has generally been assumed (9,12), and an electrostatic model involving a single catalytic site and a second, nonproductive, binding site has also been proposed (13). In a recent paper (14) we have provided experimental evidence against the latter model and furthermore suggested that the nonhyper- bolic kinetics of cytochrome oxidase is a direct consequence of its function as a proton pump. It is not, however, sufficient to demonstrate this obligatory relation between proton pumping and substrate kinetics.…”

Electron-transport-driven proton pumps display nonhyperbolic kinetics: Simulation of the steady-state kinetics of cytochrome c oxidase

“…The chrome a3-CuB site does not occur in the singly reduced oxidashed line represents a forbidden transition. For further explanadase [15,16]. tions, see the text.…”

Redox‐linked conformational changes in cytochrome c oxidase

“…If only one catalytic site is considered [l 11, a control site and/or a reaction scheme similar to that proposed for cytochrome oxidase [12] would be required in order to explain the concave nature of the Eadie Hofstee plot.…”

Kinetic analysis of proton translocation catalyzed by F₀F₁ ATPase