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Enzymatic Fischer–Tropsch-Type Reactions

Yilin Hu, Chi Chung Lee, Mario Grosch, Joseph B. Solomon, Wolfgang Weigand, Markus W. Ribbe

2022Chemical Reviews37 citationsDOIOpen Access PDF

Abstract

The Fischer–Tropsch (FT) process converts a mixture of CO and H2 into liquid hydrocarbons as a major component of the gas-to-liquid technology for the production of synthetic fuels. Contrary to the energy-demanding chemical FT process, the enzymatic FT-type reactions catalyzed by nitrogenase enzymes, their metalloclusters, and synthetic mimics utilize H+ and e– as the reducing equivalents to reduce CO, CO2, and CN– into hydrocarbons under ambient conditions. The C1 chemistry exemplified by these FT-type reactions is underscored by the structural and electronic properties of the nitrogenase-associated metallocenters, and recent studies have pointed to the potential relevance of this reactivity to nitrogenase mechanism, prebiotic chemistry, and biotechnological applications. This review will provide an overview of the features of nitrogenase enzymes and associated metalloclusters, followed by a detailed discussion of the activities of various nitrogenase-derived FT systems and plausible mechanisms of the enzymatic FT reactions, highlighting the versatility of this unique reactivity while providing perspectives onto its mechanistic, evolutionary, and biotechnological implications.

Topics & Concepts

NitrogenaseChemistryFischer–Tropsch processReactivity (psychology)EnzymeOrganic chemistryCatalysisCombinatorial chemistryBiochemical engineeringNitrogen fixationNitrogenAlternative medicineMedicineSelectivityEngineeringPathologyMetalloenzymes and iron-sulfur proteinsAmmonia Synthesis and Nitrogen ReductionElectrocatalysts for Energy Conversion
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