An oxyl/oxo mechanism for oxygen-oxygen coupling in PSII revealed by an x-ray free-electron laser

Photosynthetic water oxidation is catalyzed by the Mn₄CaO₅ cluster of photosystem II (PSII) with linear progression through five S-state intermediates (S₀ to S₄). To reveal the mechanism of water oxidation, we analyzed structures of PSII in the S₁, S₂, and S₃ states by x-ray free-electron laser serial crystallography. No insertion of water was found in S₂, but flipping of D1 Glu¹⁸⁹ upon transition to S₃ leads to the opening of a water channel and provides a space for incorporation of an additional oxygen ligand, resulting in an open cubane Mn₄CaO₆ cluster with an oxyl/oxo bridge. Structural changes of PSII between the different S states reveal cooperative action of substrate water access, proton release, and dioxygen formation in photosynthetic water oxidation.