Abstact

The cytoplasmic hydrogenase I (SHI) from the hyperthermophilic archaeon Pyrococcus furiosus belongs to the group III hydrogenase family. SHI oxidizes NADPH rather than NADH to reduce protons and evolve hydrogen gas, and because of this property, coupled with its high thermal stability, the enzyme holds great potential for economical hydrogen production. Despite decades of efforts, the SHI structure has remained unknown. Here, we report the cryoelectron microscopic (cryo-EM) structures of the heterotetrameric SHI holoenzyme (αδβγ). SHI is a symmetric dimer of two individually functional heterotetramers. SHI-αδ resembles the standard [NiFe] hydrogenase, and SHI-βγ function as the NADPH oxidoreductase. SHI-β contains three [4Fe-4S] clusters that relay electrons from NADPH in SHI-γ to the catalytic [NiFe] cluster in SHI-αδ for H2 production. These structures will guide the adaptation of this unique enzyme for biotechnological applications.