Transient kinetics of the electron transfer between P-700, plastocyanin and cytochrome f in chloroplasts suspended in fluid media at sub-zero temperatures

The kinetics of redox changes of P-700, plastocyanin and cytochrome f in chloroplasts suspended in a fluid medium at sub-zero temperatures have been studied following excitation of the chloroplasts with either a single-turnover flash, a series of flashes or continuous light. The results show that: (1) The kinetics of reduction of P-700⁺ and those of oxidation of plastocyanin are consistent with a bimolecular reaction between these two components as previously suggested (Olsen, L.F., Cox, R.P. and Barber, J. (1980) FEBS Lett. 122, 13–16). (2) Cytochrome f shows heterogeneity with respect to its kinetics of oxidation by Photosystem I. (3) In contrast to the situation when plastoquinol is the electron donor, reduction of cytochrome f by electrons derived from diaminodurene occurs with sigmoidal kinetics that shows a good fit to an apparent equilibrium constant of 12 between the cytochrome and P-700. (4) The rate of electron transfer from plastoquinol to Photosystem I depends on the redox state of the plastoquinone pool. (5) In relation to current ideas about the lateral heterogeneity of Photosystem I and Photosystem II in the thylakoid membrane, the results are consistent with the function of plastocyanin as a mobile carrier of electrons in the intrathylakoid space.