O2 evolution and recovery of the water-oxidizing enzyme

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作者
Keisuke Kawashima
Tomohiro Takaoka
Hiroki Kimura
Keisuke Saito
Hiroshi Ishikita
机构
[1] The University of Tokyo,Department of Applied Chemistry
[2] 7-3-1 Hongo,Research Center for Advanced Science and Technology
[3] The University of Tokyo,undefined
[4] 4-6-1 Komaba,undefined
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Nature Communications | / 9卷
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摘要
In photosystem II, light-induced water oxidation occurs at the Mn4CaO5 cluster. Here we demonstrate proton releases, dioxygen formation, and substrate water incorporation in response to Mn4CaO5 oxidation in the protein environment, using a quantum mechanical/molecular mechanical approach and molecular dynamics simulations. In S2, H2O at the W1 site forms a low-barrier H-bond with D1-Asp61. In the S2-to-S3 transition, oxidation of OW1H– to OW1•–, concerted proton transfer from OW1H– to D1-Asp61, and binding of a water molecule Wn-W1 at OW1•– are observed. In S4, Wn-W1 facilitates oxo-oxyl radical coupling between OW1•– and corner μ-oxo O4. Deprotonation via D1-Asp61 leads to formation of OW1=O4. As OW1=O4 moves away from Mn, H2O at W539 is incorporated into the vacant O4 site of the O2-evolved Mn4CaO4 cluster, forming a μ-oxo bridge (Mn3–OW539–Mn4) in an exergonic process. Simultaneously, Wn-W1 is incorporated as W1, recovering the Mn4CaO5 cluster.
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