The oxidation-reduction potential of P-700 in chloroplast lamellae and subchloroplast particles

Abstract

The oxidation-reduction potential of P-700 has been determined in chloroplast lamellae and in subchloroplast particles by measuring the magnitude of flash-induced absorption changes at 820 or at 703 nm (due to the oxidation of P-700) in the presence of known concentrations of potassium ferro- and ferricyanide. A midpoint potential of about +490 mV was determined in chloroplast lamellae and in particles prepared with digitonin (D-144) or Triton (TSF-1). A lower potential was determined with Photosystem I particles obtained after harsher treatments with Triton or a mixture of detergents. The potential is even lower in chlorophyll-protein complex I particles prepared with sodium dodecyl sulfate (about +430 mV). Very similar values were determined from oxidized minus reduced spectra measured with a double-beam spectrophotometer. Titrations were also made with D-144 and TSF-I particles, with 66% glyeerol in the buffer, at 21 °C and at 77 °K. P-700 was found to be half-oxidized at ferricyanide/ferrocyanide ratios of about 60 at 21 °C and of about 1 at 77 °K. This shows that the redox equilibrium is largely perturbed by the cooling process.