Abstract
Proton matrix ENDOR spectra were measured for Ca(2+)-depleted and Sr(2+)-substituted photosystem II (PSII) membrane samples from spinach and core complexes from Thermosynechococcus vulcanus in the S2 state. The ENDOR spectra obtained were similar for untreated PSII from T. vulcanus and spinach, as well as for Ca(2+)-containing and Sr(2+)-substituted PSII, indicating that the proton arrangements around the manganese cluster in cyanobacterial and higher plant PSII and Ca(2+)-containing and Sr(2+)-substituted PSII are similar in the S2 state, in agreement with the similarity of the crystal structure of both Ca(2+)-containing and Sr(2+)-substituted PSII in the S1 state. Nevertheless, slightly different hyperfine separations were found between Ca(2+)-containing and Sr(2+)-substituted PSII because of modifications of the water protons ligating to the Sr(2+) ion. Importantly, Ca(2+) depletion caused the loss of ENDOR signals with a 1.36-MHz separation because of the loss of the water proton W4 connecting Ca(2+) and YZ directly. With respect to the crystal structure and the functions of Ca(2+) in oxygen evolution, it was concluded that the roles of Ca(2+) and Sr(2+) involve the maintenance of the hydrogen bond network near the Ca(2+) site and electron transfer pathway to the manganese cluster.
Highlights
Ca2ϩ plays an essential role in oxygen evolution in photosystem II
The ENDOR spectra obtained were similar for untreated photosystem II (PSII) from T. vulcanus and spinach, as well as for Ca2؉-containing and Sr2؉substituted PSII, indicating that the proton arrangements around the manganese cluster in cyanobacterial and higher plant PSII and Ca2؉-containing and Sr2؉-substituted PSII are similar in the S2 state, in agreement with the similarity of the crystal structure of both Ca2؉-containing and Sr2؉-substituted PSII in the S1 state
Our results showed that Sr2ϩ substitution did not affect the ENDOR spectra significantly; a pair of peaks was lost upon Ca2ϩ depletion; these results were discussed in terms of the crystal structure and the role of Ca2ϩ in oxygen evolution
Summary
Results: ENDOR spectra showed that some protons surrounding the manganese cluster are lost and modified by Ca2ϩ depletion. Extensive spectroscopic studies have been performed on the Ca2ϩ-depleted and Sr2ϩ-substituted manganese cluster to reveal the role of the Ca2ϩ ion in the oxygen-evolving reaction. We applied the proton matrix ENDOR to the Ca2ϩ-depleted and Sr2ϩ-substituted manganese cluster in the S2 state to investigate the relationship between Ca2ϩ and water molecules near the manganese cluster. Our results showed that Sr2ϩ substitution did not affect the ENDOR spectra significantly; a pair of peaks was lost upon Ca2ϩ depletion; these results were discussed in terms of the crystal structure and the role of Ca2ϩ in oxygen evolution
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