Oxygen-evolving photosystem II structures during S1–S2–S3 transitions

Li, Hongjie and Nakajima, Yoshiki and Nango, Eriko and Owada, Shigeki and Yamada, Daichi and Hashimoto, Kana and Luo, Fangjia and Tanaka, Rie and Akita, Fusamichi and Kato, Koji and Kang, Jungmin and Saitoh, Yasunori and Kishi, Shunpei and Yu, Huaxin and Matsubara, Naoki and Fujii, Hajime and Sugahara, Michihiro and Suzuki, Mamoru and Masuda, Tetsuya and Kimura, Tetsunari and Thao, Tran Nguyen and Yonekura, Shinichiro and Yu, Long-Jiang and Tosha, Takehiko and Tono, Kensuke and Joti, Yasumasa and Hatsui, Takaki and Yabashi, Makina and Kubo, Minoru and Iwata, So and Isobe, Hiroshi and Yamaguchi, Kizashi and Suga, Michihiro and Shen, Jian-Ren (2024) Oxygen-evolving photosystem II structures during S1–S2–S3 transitions. Nature. ISSN 0028-0836

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Abstract

Photosystem II (PSII) catalyses the oxidation of water through a four-step cycle of Si states (i = 0–4) at the Mn4CaO5 cluster, during which an extra oxygen (O6) is incorporated at the S3 state to form a possible dioxygen. Structural changes of the metal cluster and its environment during the S-state transitions have been studied on the microsecond timescale. Here we use pump-probe serial femtosecond crystallography to reveal the structural dynamics of PSII from nanoseconds to milliseconds after illumination with one flash (1F) or two flashes (2F). YZ, a tyrosine residue that connects the reaction centre P680 and the Mn4CaO5 cluster, showed structural changes on a nanosecond timescale, as did its surrounding amino acid residues and water molecules, reflecting the fast transfer of electrons and protons after flash illumination. Notably, one water molecule emerged in the vicinity of Glu189 of the D1 subunit of PSII (D1-E189), and was bound to the Ca2+ ion on a sub-microsecond timescale after 2F illumination. This water molecule disappeared later with the concomitant increase of O6, suggesting that it is the origin of O6. We also observed concerted movements of water molecules in the O1, O4 and Cl-1 channels and their surrounding amino acid residues to complete the sequence of electron transfer, proton release and substrate water delivery. These results provide crucial insights into the structural dynamics of PSII during S-state transitions as well as O–O bond formation.

Item Type: Article
Subjects: European Repository > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 06 Feb 2024 13:00
Last Modified: 06 Feb 2024 13:00
URI: http://go7publish.com/id/eprint/4118

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