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  • Title: Effects of inactivating psbM and psbT on photodamage and assembly of photosystem II in Synechocystis sp. PCC 6803.
    Author: Bentley FK, Luo H, Dilbeck P, Burnap RL, Eaton-Rye JJ.
    Journal: Biochemistry; 2008 Nov 04; 47(44):11637-46. PubMed ID: 18834146.
    Abstract:
    PsbM and PsbT have been assigned to electron densities on both photosystem II (PSII) monomers at the PSII dimer interface in X-ray crystallographic structures from Thermosynechoccocus elongatus and T. vulcanus. Our results show that removal of either or both proteins from Synechocystis sp. PCC 6803 resulted in photoautotrophic strains but the DeltaPsbM:DeltaPsbT mutant did not form stable dimers. A CP43-less PSII monomer accumulated in both single mutants, although absence of PsbT destabilized PSII to a greater extent than removing PsbM. Additionally, DeltaPsbT cells exhibited slowed electron transfer between the plastoquinone electron acceptors, Q(A) and Q(B); however, S-state cycling in both mutants was similar to wild type. Oxygen evolution in these mutants rapidly inactivated following exposure to high light where recovery required protein synthesis and could proceed in the dark in DeltaPsbM cells but required light in DeltaPsbT cells. Interestingly, the extent of recovery of oxygen-evolving activity was greatest in the DeltaPsbM:DeltaPsbT strain. We also found recovery required Psb27 in DeltaPsbT cells although, under our conditions, the DeltaPsb27 strain remained similar to wild type. In contrast, the DeltaPsbM:DeltaPsb27 mutant could not assemble PSII beyond a CP43-minus intermediate. Our results suggest essential roles for Psb27 in biogenesis in the DeltaPsbM strain and for repair from photodamage in cells lacking PsbT.
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