Giorgio Caserta scite author profile

for reversible dihydrogen evolution. H2 turnover involves different catalytic intermediates including a recently characterized hydride state of the active site (H-cluster). Applying cryogenic infrared and electron paramagnetic resonance spectroscopy to an [FeFe] model hydrogenase from Chlamydomonas reinhardtii (CrHydA1), we have discovered two new hydride intermediates and spectroscopic evidence for a bridging CO ligand in two reduced H-cluster states.Our study provides novel insights into these key intermediates, their relevance for the catalytic cycle of [FeFe] hydrogenase, and novel strategies for exploring these aspects in detail.

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Structural and functional characterization of the hydrogenase-maturation HydF protein

Caserta

Pecqueur

Adamska-Venkatesh

et al. 2017

Nat Chem Biol

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[FeFe] hydrogenase (HydA) catalyzes interconversion between 2H and H at an active site composed of a [4Fe-4S] cluster linked to a 2Fe subcluster that harbors CO, CN and azapropanedithiolate (adt) ligands. HydE, HydG and HydF are the maturases specifically involved in the biosynthesis of the 2Fe subcluster. Using ligands synthesized by HydE and HydG, HydF assembles a di-iron precursor of the 2Fe subcluster and transfers it to HydA for maturation. Here we report the first X-ray structure of HydF with its [4Fe-4S] cluster. The cluster is chelated by three cysteines and an exchangeable glutamate, which allows the binding of synthetic mimics of the 2Fe subcluster. [Fe(adt)(CO)(CN)] is proposed to be the true di-iron precursor because, when bound to HydF, it matures HydA and displays features in Fourier transform infrared (FTIR) spectra that are similar to those of the native HydF active intermediate. A new route toward the generation of artificial hydrogenases, as combinations of HydF and such biomimetic complexes, is proposed on the basis of the observed hydrogenase activity of chemically modified HydF.

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Giorgio Caserta

Shedding Light on Proton and Electron Dynamics in [FeFe] Hydrogenases

Structural and functional characterization of the hydrogenase-maturation HydF protein

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