Relative energies among proton-shifted S2 isomers in the photosystem II revealed by DLPNO coupled cluster and hybrid DFT calculations. Proton transfer coupled spin transitions of the CaMn4Ox cluster in OEC of PSII

[Display omitted] •The relative stability of proton-shifted S2 isomers of OEC of PSII were investigated by hybrid DFT and DLPNO-CC methods.•Exchange integral and exact diagonalization of spin Hamiltonian were calculatedfor comparison to the experimental results.•The computational results revealed mu...

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Bibliographic Details
Published in:Chemical physics letters 2022-03, Vol.790, p.139357, Article 139357
Main Authors: Miyagawa, Koichi, Shoji, Mitsuo, Isobe, Hiroshi, Kawakami, Takashi, Nakajima, Takahito, Yamaguchi, Kizashi
Format: Article
Language:English
Subjects:
Broken symmetry
CaMn4O5 cluster
OEC
PSII
S2 state
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Summary:[Display omitted] •The relative stability of proton-shifted S2 isomers of OEC of PSII were investigated by hybrid DFT and DLPNO-CC methods.•Exchange integral and exact diagonalization of spin Hamiltonian were calculatedfor comparison to the experimental results.•The computational results revealed multiple intermediates model for the S2 state of OEC of PSII. DLPNO-CCSD(T) calculations coupled with the exact diagonalization of spin Hamiltonian matrix elucidated two right (R)-opened structures with the low spin (LS) (S = 1/2, g = 2) and intermediate spin (IS) (S = 5/2, g > 4) state and two left (L)-opened structures with the IS (S = 5/2, g = 4; S = 7/2, g > 4) and high spin (HS) (S = 13/2) state. Multiple intermediates in the S2 state revealed by DLPNO-CCSD(T) are compatible with the complex EPR, EXAFS, and XFEL results for the S2 state, indicating proton transfer coupled spin transitions of the CaMn4Ox cluster in OEC of PSII.
ISSN:0009-2614
1873-4448
DOI:10.1016/j.cplett.2022.139357