Department of Botany, King's College, University of London, 68 Half Moon Lane, London, S.E. 24, England
Abstract:
The ability of triethyltin to inhibit oxidative phosphorylation and electron transport in tightly coupled rat liver mitochondria is very dependent on the pH and the ionic constitution of the assay medium.
1. 1. In an assay medium containing Cl? at an alkaline pH, above 7.1, triethyltin inhibited both the ADP stimulated rate of oxygen uptake and the dinitrophenol-induced ATPase (EC 3.6.1.3) but had no effect on the dinitrophenol-stimulated rate of oxygen uptake. If the pH was reduced to below 6.9 the pattern of inhibition changed and both the ADP and dinitrophenol-stimulated rates of oxygen uptake were inhibited by triethyltin.
2. 2. In the absence of Cl? in the medium triethyltin inhibited both the ADP-stimulated rate of oxygen uptake and dinitrophenol-induced ATPase and had no effect on the dinitrophenol-stimulated rate of oxygen uptake at either pH 7.4 or 6.6.
3. 3. In either the presence or absence of Cl? the ability of triethyltin to inhibit ATP synthesis appears to markedly decrease as the pH is lowered from 7.4 to 6.6.
4. 4. The significance of these observations is discussed in relation to the operation of a Cl?/OH? antiport in the coupling membrane.