Mechanism and Application of the Catalytic Reaction of [NiFe] Hydrogenase: Recent Developments
Hulin Tai, Shun Hirota
Abstract
Abstract Hydrogenases (H 2 ase) catalyze the oxidation of dihydrogen and the reduction of protons with remarkable efficiency, thereby attracting considerable attention in the energy field due to their biotechnological potential. For this simple reaction, [NiFe] H 2 ase has developed a sophisticated but intricate mechanism with the heterolytic cleavage of dihydrogen, where its Ni−Fe active site exhibits various redox states. Recently, new spectroscopic and crystal structure studies of [NiFe] H 2 ases have been reported, providing significant insights into the catalytic reaction mechanism, hydrophobic gas‐access tunnel, proton‐transfer pathway, and electron‐transfer pathway of [NiFe] H 2 ases. In addition, [NiFe] H 2 ases have been shown to play an important role in biofuel cell and solar dihydrogen production. This concept provides an overview of the biocatalytic reaction mechanism and biochemical application of [NiFe] H 2 ases based on the new findings.