Mutations responsible for high light sensitivity in an atrazine-resistant mutant of Synechcystis 6714

The primary target of photoinhibition is the photosystem II reaction center. The process involves a reversible damage, followed by an irreversible inhibition of photosystem II activity. During cell exposition to high light intensity, the D₁ protein is specially degraded. An atrazine-resistant mutant of Synechocystis 6714, AzV, reaches the irreversible step of photoinhibition faster than wild-type cells. Two point mutations present in the psbA gene of AzV (coding for D₁) lead to the modification of Phe 211 to Ser and Ala 251 to Val in D₁. Transformation of wild-type cells with the AzV psbA gene shows that these two mutations are sufficient to induce a faster photodamage of PSII. Other DCMU-and/or atrazine-resistant mutants do not differ from the wild type when photoinhibited. We conclude that the Q_B pocket is involved in PSII photodamage and we propose that the mutation of Ala 251 might be related to a lower rate of proteolysis of the D₁ protein than in the wild type.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PSII photosystem II - RCII reaction center II