Mechanism of respiration-driven proton translocation in the inner mitochondrial membrane. Kinetics of proton translocation and role of cations |
| |
Authors: | S. Papa F. Guerrieri S. Simone M. Lorusso D. Larosa |
| |
Affiliation: | Department of Biochemistry, Comparative Biochemistry and Centre for the Study of Mitochondria and Energy Metabolism, C.N.R., University of Bari, Bari Italy |
| |
Abstract: | The kinetics and mechanism of passive and active proton translocation in submitochondrial vesicles, obtained by sonication of beef heart mitochondria, have been studied.Analysis of the anaerobic release of the protons taken up by submitochondrial particles in the respiring steady state shows that proton diffusion consists of two parallel, apparent first-order processes: a fast reaction which, on the basis of its kinetic properties and response to cations and various effectors, is considered to consist of a proton/monovalent cation exchange; and a slow process which, on analogous grounds, is considered as a single electrogenic flux.The study of the various parameters of the respiration-linked active proton translocation and of the accompanying migration of permeant anions and K+ led to the following conclusions: (i) The oxidoreduction-linked proton translocation is electrogenic. (ii) Cation counterflow is not a necessary factor in the respiration-driven proton translocation. (iii) The membrane potential developed by active proton translocation exerts a coupling with respect to permeant cations and anions. (iv) The respiration-driven proton translocation is secondarily coupled, through the ΔμH component of the electrochemical proton gradient and at the level of a proton-cation exchange system of the membrane, to the flow of K+ and Na+. |
| |
Keywords: | FCCP |
本文献已被 ScienceDirect 等数据库收录! |
|