Journal
JOURNAL OF PHYSICAL CHEMISTRY B
Volume 124, Issue 1, Pages 128-133Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcb.9b10817
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- Nanotechnology Platform Program (Molecule and Material Synthesis) of the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan
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The spin structure in the S-2 state and the crystal structure of the manganese cluster of the oxygen-evolving complex of plant photosystem II were combined by the quantitative evaluation of the magnetic anisotropy of the g = 4 signal. The g-values of 3.93 and 4.13 were obtained for the g = 4 signal in the directions parallel and perpendicular to the membrane normal, respectively. The peak-to-peak separations were 270 and 420 G for the parallel and perpendicular orientations to the membrane, respectively. By comparison with the crystal structure, the z-axis of the zero-field splitting was ascribed to the direction of the dangling Mn connecting water oxygen, Mn4-O(W1), in the manganese cluster. The results give the first experimental evidence that the valence of the dangling Mn is Mn(III) in the S-2 high-spin state. We showed that the strong exchange coupling of Mn4 to Mn3 was required for g = 4.1 spin state in the four-spin couplings, estimated as > similar to vertical bar-30 cm(-1)vertical bar, indicating that the present closed cubane model in quantum mechanics/molecular mechanics (QM/MM) calculation cannot explain the g = 4.1 spin structure. The onsite zero-field splitting of the dangling Mn was evaluated as -2.3 cm(-1) under the strong antiferromagnetic couplings (-50 cm(-1)) with the dangling Mn to the cubane frame in the four coupled spin state. From the viewpoint of the arrangement of the Mn valences in the cluster, a closed cubane model is effective, but without a large structural deviation from the S-1 state crystal structure.
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