Proton Coupled Electronic Rearrangement within the H-Cluster as an Essential Step in the Catalytic Cycle of [FeFe] Hydrogenases

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• 作者：Constanze Sommer ; Agnieszka Adamska-Venkatesh ; Krzysztof Pawlak ; James A. Birrell ; Olaf Rüdiger ; Edward J. Reijerse ; Wolfgang Lubitz
• 刊名：Journal of the American Chemical Society
• 出版年：2017
• 出版时间：February 1, 2017
• 年：2017
• 卷：139
• 期：4
• 页码：1440-1443
• 全文大小：354K
• ISSN：1520-5126

文摘

The active site of [FeFe] hydrogenases, the H-cluster, consists of a [4Fe–4S] cluster connected via a bridging cysteine to a [2Fe] complex carrying CO and CN^– ligands as well as a bridging aza-dithiolate ligand (ADT) of which the amine moiety serves as a proton shuttle between the protein and the H-cluster. During the catalytic cycle, the two subclusters change oxidation states: [4Fe–4S]_H²⁺ ⇔ [4Fe–4S]_H⁺ and [Fe(I)Fe(II)]_H ⇔ [Fe(I)Fe(I)]_H thereby enabling the storage of the two electrons needed for the catalyzed reaction 2H⁺ + 2e^– ⇄ H₂. Using FTIR spectro-electrochemistry on the [FeFe] hydrogenase from Chlamydomonas reinhardtii (CrHydA1) at different pH values, we resolve the redox and protonation events in the catalytic cycle and determine their intrinsic thermodynamic parameters. We show that the singly reduced state H_red of the H-cluster actually consists of two species: H_red = [4Fe–4S]_H⁺ − [Fe(I)Fe(II)]_H and H_redH⁺ = [4Fe–4S]_H²⁺ – [Fe(I)Fe(I)]_H (H⁺) related by proton coupled electronic rearrangement. The two redox events in the catalytic cycle occur on the [4Fe–4S]_H subcluster at similar midpoint-potentials (−375 vs −418 mV); the protonation event (H_red/H_redH⁺) has a pK_a ≈ 7.2.