The effect of ambient redox potential on the transient electron spin echo signals observed in chloroplasts and photosynthetic algae

Time-resolved electron spin echo (ESE) studies were carried out at room temperature on chloroplast preparations and whole cells of photosynthetic algae. The signals observed exhibit the unexpected special ESE signal which we have proposed to be the result of transient interactions between P⁺-700 and an early electron acceptor of Photosystem I (Thurnauer, M.C. and Norris, J.R. (1980) Chem. Phys. Lett. 76, 557–561). The intensity of the special ESE signal decreases with the chemical reduction of the Center A-Center B complex. The results suggest that in the untreated photosynthetic systems we are initially observing P⁺-700 as it interacts with the reduced acceptor which precedes the Center A-Center B complex. Then the decay of the special ESE signal (approx. 170 ns) gives the lifetime of this reduced acceptor as it participates in forward electron transport.