The H+-ATPase from chloroplasts was brought into the active, reduced state. Then, an electrochemica| potential difference of protons across the thylakoid membranes was F_,cnerated b~ ,in acid-base transition, ~lpH, combined with a K*/valinomycin diffusion potential. ~. The initial rate of ATP synthesis was measured with a rapid-mixing quenched-flow apparatus in the time-range between 20-150 ms. The rate of ATP symhesis depends in a sigmoidal way on ,dpH. Increasing diffusion potentials shifts the ApH-dcpendcncies to ~ower ~pH values. Analysis of the data indicate that the rate of ATP synthesss depends on the electrochemical potential diffcrenoe of protons irrespective of the relative contribution of ApH and Ch!oroplast; H~-ATPase; Enzyme-kinetics
Biophysical Chemistry / Chemical Kinetics / MembranesThe kinetics of proton transport coupled ATP synthesis at the chloroplast membrane was investigated upon energization of the membrane by an artificially generated ApH and an electric potential difference, Ay/. Using a rapid mixing system, rates of ATP synthesis were studied at short reaction times (< 150 ms) where all relevant parameters (A pH, A y/, substrate and product concentrations) remain practically constant at their initial values. Under these conditions it was found:1. The maximal rate of ATP synthesis obtained under these artificial conditions is the same as that obtained by light-induced ATP synthesis. 2. The turnover number of the ATPase is 410 s-'.3. The rate of ATP synthesis depends in a sigmoidal way on the transmembrane electrochemical potential difference of protons, A i H + , regardless of the relative contributions by A pH and A ty.
4.The functional dependence of the rate of ATP synthesis on A&+ does not reflect the kinetics of the catalytic events at the ATPase but the transformation of the ATPase from an inactive to a catalytically active state. 5 . The binding of two protons to the ATPase from the inside of the membrane is necessary for activation.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.