Alterations of the oxygen-evolving apparatus induced by a ~(305)Arg-> ~(305)Ser mutation in the CP43 protein of photosystem II from synechocystis sp. PCC 6803 under chloride-limiting conditions

摘要

The psbC gene encodes CP43, a component of Photosystem II (PSII) in higher plants, algae, and cyanobacteria. Previous work demonstrated that alteration of an arginine residue occurring at position 305 to serine produced a strain (R305S) with altered PSII activity (Knoepfle, N., Bricker, T.M., and Putnam-Evans. C. (1999) Biochemistry 38, 1582-1588). This strain grew at wild-type rates in complete BG-11 media (480 muM chloride) and evolved oxygen at rates that were 60-70% of the observed wild-type rates. The R305S strain assembled approximately 70-80% of the functional PSII centers contained in the control strain, and these PSII centers very sensitive to photoinactivation at high light intensities. We recently observed that the R305S mutant exhibited a pronounced chloride effect. When this mutant was grown in media depleted of chloride (30 muM chloride), it exhibited a severely reduced photoautotrophic growth rate. The effect of chloride depletion on the growth rate of the mutant was reversed by the addition of 480 muM bromide to the chloride-depleted BG-11 media. Oxygen evolution rates for the mutant were further depressed to about 22% of that observed in control cells under chloride-limiting conditions. Addition of bromide restored these rates to those observed under chloride-sufficient conditions. The mutant exhibited a significantly lower relative quantum yield for oxygen evolution than did the control strain, and this was exacerbated under chloride-limiting conditions. Fluorescence yield measurements indicated that both the mutant and the control strains assembled fewer PSII reaction centers under chloride-limiting conditions. The reaction centers assembled by the mutant exhibited an enhanced sensitivity to photoinactivation under chloride-limiting conditions, with a t_(1/2) of photoinactivation of 2.6 min under chloride-limiting conditions as compared to a t_(1/2) of 4.7 min under normal growth conditions. The mutant also exhibited an enhanced stability of its S_2 state and increased number of centers in the S_1 state following dark incubation. These results indicate that the mutant R305S exhibits a defect in its ability to utilize chloride in support of efficient oxygen evolution in PSII. This is the first mutant of this type described in the CP43 protein.