Energy transduction in photosynthetic bacteria IV. Light-dependent ATPase in photosynthetic membranes from Rhodopseudomonas capsulata

ATPase activity of photosynthetic membrane fragments from the bacterium Rhodopseudomonas capsulata can be stimulated by continuous illumination under conditions of active cyclic electron flow. The activation corresponds to an increase in the maximum velocity of the reaction and does not affect the apparent K_m for ATP (0.11 mM). No stimulation in the light is observed in the presence of classical uncouplers or oxidized 2,6-dichlorophenolindophenol (DCIP), which, per se, stimulate ATPase in the dark. It is demonstrated, however, that oxidized DCIP acts as an uncoupler of bacterial photophosphorylation.

The effect of light is elicited after a few minutes of preillumination, or in a much shorter time if an ADP trapping system is supplied. Activation does not occur if ADP is added during the preillumination (apparent K_m for inhibition by ADP = 1 μM). The effect of ADP is not related to competitive inhibition with ATP, which can be observed at higher concentrations (apparent K_i = 0.26 mM). ADP, however, is not effective if added after some minutes of preillumination.