Photosystem II (PSII) is the membrane protein complex that catalyzes the photo-induced oxidation of water at a manganesecalcium active site. Light-dependent damage and repair occur in PSII under conditions of high light stress. The core reaction center complex is composed of the D1, D2, CP43, and CP47 intrinsic polypeptides. In this study, a new chromophore formed from the oxidative post-translational modification of tryptophan is identified in the CP43 subunit. Tandem mass spectrometry peptide sequencing is consistent with the oxidation of the CP43 tryptophan side chain, Trp-365, to produce N-formylkynurenine (NFK). Characterization with ultraviolet visible absorption and ultraviolet resonance Raman spectroscopy supports this assignment. An optical assay suggests that the yield of NFK increases 2-fold (2.2 ؎ 0.5) under high light illumination. A concomitant 2.4 ؎ 0.5-fold decrease is observed in the steady-state rate of oxygen evolution under the high light conditions. NFK is the product formed from reaction of tryptophan with singlet oxygen, which can be produced under high light stress in PSII. Reactive oxygen species reactions lead to oxidative damage of the reaction center, D1 protein turnover, and inhibition of electron transfer. Our results are consistent with a role for the CP43 NFK modification in photoinhibition.Oxygenic photosynthesis is the enzyme-catalyzed conversion of light energy to biochemical energy, and this process occurs in the membranes of plants, algae, and cyanobacteria. In oxygenic photosynthesis, photosystem II (PSII) 4 catalyzes the light-driven oxidation of water and reduction of plastoquinone. On the acceptor side of PSII, electrons are transferred sequentially to two quinone molecules, Q A and Q B (1). On the donor side, a Mn 4 Ca active site is the binding site for water and the site of oxygen production. Each monomer is composed of 20 protein subunits, chlorophylls, carotenoids, and redox-active plastoquinones (2, 3). Calcium and chloride are required for activity under physiological conditions (4). The chloride binding site has been assigned near the active site (2, 3).The D1, D2, CP43, and CP47 polypeptides form the intrinsic core complex of PSII. The D1 and D2 membrane spanning proteins bind the electron transfer cofactors active in water oxidation (2, 3). This central heterodimeric core is symmetrically flanked by the CP43 and CP47 proteins, which bind light-harvesting antennae chlorophyll (Chl) molecules (5). Each of these core polypeptides is composed of intrinsic membrane-spanning helices, as well as several hydrophilic loops that protrude into the interior lumen of the thylakoid membrane (2, 3). The lumenal loop regions of CP43 have been implicated as important in assembly and protection from photoinhibition (see Ref.
and references therein).The active site of water oxidation, the Mn 4 Ca cluster, is located on the lumenal surface and is protected by three extrinsic polypeptides (6). In plants, these extrinsic proteins, the 18-kDa, 24-kDa, and psbO (or the 33-kDa, manganes...
