2017
DOI: 10.1021/jacs.6b12636
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Proton Coupled Electronic Rearrangement within the H-Cluster as an Essential Step in the Catalytic Cycle of [FeFe] Hydrogenases

Abstract: 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] ⇔ [4Fe-4S] and [Fe(I)Fe(II)] ⇔ [Fe(I)Fe(I)] thereby enabling the storage of the two electrons needed for the catalyzed reacti… Show more

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Cited by 158 publications
(372 citation statements)
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“…2,9-11 The active oxidized state H ox is represented as [4Fe–4S] H 2+ -Fe(I)Fe(II). Two singly reduced states have recently been identified: H red =[4Fe–4S] H + -Fe(I)Fe(II) and H red H + =[4Fe–4S] H 2+ Fe(I)Fe(I)(NH 2 + ) where protonation of the ADT amine is coupled to electronic rearrangement within the H-cluster.…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…2,9-11 The active oxidized state H ox is represented as [4Fe–4S] H 2+ -Fe(I)Fe(II). Two singly reduced states have recently been identified: H red =[4Fe–4S] H + -Fe(I)Fe(II) and H red H + =[4Fe–4S] H 2+ Fe(I)Fe(I)(NH 2 + ) where protonation of the ADT amine is coupled to electronic rearrangement within the H-cluster.…”
mentioning
confidence: 99%
“…Two singly reduced states have recently been identified: H red =[4Fe–4S] H + -Fe(I)Fe(II) and H red H + =[4Fe–4S] H 2+ Fe(I)Fe(I)(NH 2 + ) where protonation of the ADT amine is coupled to electronic rearrangement within the H-cluster. 9 The doubly reduced state is characterized as H sred H + =[4Fe–4S] H + -Fe(I)Fe(I)(NH 2 + ). According to widely accepted models of the catalytic cycle, 4-7 H ox interacts with molecular hydrogen which is deprotonated by the pendant ADT amine in concert with electron transfer from the [2Fe] H subsite to the [4Fe–4S] H 2+ cluster yielding an Fe(II)Fe(II)-bound hydride.…”
mentioning
confidence: 99%
“…In the literature, the underlying elementary processes are discussed controversially, particularly for the case of [FeFe] hydrogenases . The main differences are related to the binding of hydrogen in the active site and the corresponding protonation sites (precursor structures) in the protein environment or at the active center . Hitherto, the influence of the electrolyte composition on the activity and reaction mechanism of hydrogenases has been practically ignored.…”
Section: Acknowledgementsmentioning
confidence: 99%
“…Hred und Hred′ sind zwei unterschiedliche, einfach‐reduzierte Zustände. Während der H‐Cluster in Hred das Elektron am [FeFe]‐Kofaktor trägt, liegt in Hred′ ein reduziertes [4Fe‐4S]‐Zentrum vor . Weder Hred noch Hred′ sind ESR‐aktiv .…”
Section: Figureunclassified