1. Impact of Mutations within the Putative Ca2+-Binding Lumenal Interhelical a−b Loop of the Photosystem II D1 Protein on the Kinetics of Photoactivation and H2O-Oxidation in Synechocystis sp. PCC6803
- Author
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Richard J. Debus, Ming Qian, Luan Dao, and Robert L. Burnap
- Subjects
Binding Sites ,Photosystem II ,Transition (genetics) ,Protein Conformation ,Chemistry ,Photosynthetic Reaction Center Complex Proteins ,Mutant ,Kinetics ,Photosystem II Protein Complex ,Water ,Cyanobacteria ,Biochemistry ,Photobiology ,Oxygen ,Loop (topology) ,Crystallography ,Synechocystis sp ,Membrane ,Mutagenesis, Site-Directed ,Biophysics ,Calcium ,Ca2 binding ,Oxidation-Reduction - Abstract
Mutations D1-D59N and D1-D61E in the putative Ca2+-binding lumenal interhelical a-b loop of the photosystem II (PSII) D1 protein [Chu, H. A., Nguyen, A. P., and Debus (1995), Biochemistry 34, 5839-5858] were further characterized in terms of S-state cycling and photoactivation. Bare platinum electrode measurements of centrifugally deposited O2-evolving membranes isolated from the a-b loop mutants demonstrated a retarded appearance of O2 following single turnover flashes, although not to the extent of retardation seen in the Deltapsb0 mutant, which lacks the extrinsic manganese-stabilizing protein (MSP). Double flash measurements indicate that retarded O2 release in mutants coincides with a decrease in overall PSII turnover during the S3-[S4]-S0 transition. S2 and S3 decay measurements in the isolated membranes indicate that D1-D59N and D1-D61E have faster decays of these higher S-states in contrast to slowed decays in the Deltapsb0 mutant. Measurements of the flash interval dependence of photoactivation indicate that intermediates of photoactivation [light-dependent assembly of the (Mn)4 complex] are highly destabilized in the a-b loop mutants compared to both DeltapsbO and the wild-type: flash intervals of greater than 2 s result in the nearly complete decay of unstable photointermediate(s) in the D1-D59N and D1-D61E samples, whereas a similar loss does not occur until intervals even greater than 10 s in the DeltapsbO and wild-type samples. These results are consistent with a role for the residues D1-D59 and D1-D61 in modulating the redox properties of the higher S-states and, also, possibly in the binding the calcium ion involved in photoactivation.
- Published
- 1999
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