The adaptation of the electron transfer chain of Rhodopseudomonas capsulata to different light intensities

(1) Cells of Rhodopseudomonas capsulata (wild-type) were grown photoheterotrophically in a turbidostat under very high and very low light intensity. Membranes were isolated from cells adapted to the respective light conditions and fractionated by sucrose density centrifugation. The molar ratios of ubiquinone and cytochromes c₂, c₁, b-561 and b-566 per reaction center were 3-fold to 5-fold higher in high-light than in low-light membranes. (2) Most of the Cyt(c₁ + c₂) and Cyt b-561 detected in dark redox titrations undergoes light-induced redox changes, both in high- and in low-light membranes. (3) The fractions of the total photooxidizable reaction center and Cyt(c₁ + c₂) oxidized under continuous light in the absence of antimycin are higher in membranes from low-light- than from high-light-grown cells. (4) From these data and results of kinetic studies it is proposed that cyclic electron flow under saturating light intensities is faster in high-light-grown cells.