Interaction between tyrosineZ and substrate water in active photosystem II

In the field of photosynthetic water oxidation it has been under debate whether Tyrosine_Z (Tyr_Z) acts as a hydrogen or an electron acceptor from water. In the former concept, direct contact of Tyr_Z with substrate water has been assumed. However, there is no direct evidence for the interaction between Tyr_Z and substrate water in active Photosystem II (PSII), instead most experiments have been performed on inhibited PSII. Here, this problem is tackled in active PSII by combining low temperature EPR measurements and quantum chemistry calculations. EPR measurements observed that the maximum yield of Tyr_Z oxidation at cryogenic temperature in the S₀ and S₁ states was around neutral pH and was essentially pH-independent. The yield of Tyr_Z oxidation decreased at acidic and alkaline pH, with pKs at 4.7-4.9 and 7.7, respectively. The observed pH-dependent parts at low and high values of pH can be explained as due to sample inactivation, rather than active PSII. The reduction kinetics of Tyr_Z^· in the S₀ and S₁ states were pH independent at pH range from 4.5 to 8. Therefore, the change of the pH in bulk solution probably has no effect on the Tyr_Z oxidation and Tyr_Z^· reduction at cryogenic temperature in the S₀ and S₁ states of the active PSII. Theoretical calculations indicate that Tyr_Z becomes more difficult to oxidize when a H₂O molecule interacts directly with it. It is suggested that Tyr_Z is probably located in a hydrophobic environment with no direct interaction with the substrate H₂O in active PSII. These results provide new insights on the function and mechanism of water oxidation in PSII.