The methanogenic CO2 reducing-and-fixing enzyme is bifunctional and contains 46 
[4Fe-4S] clusters

Wagner, T.; Ermler, U.; Shima, S.

doi:10.1126/science.aaf9284

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The methanogenic CO₂ reducing-and-fixing enzyme is bifunctional and contains 46 [4Fe-4S] clusters

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Wagner, T.
Department-Independent Research Group Microbial Protein Structure, Max Planck Institute for Terrestrial Microbiology, Max Planck Society;

Ermler, U.
Max Planck Society;

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Shima, S.
Department-Independent Research Group Microbial Protein Structure, Max Planck Institute for Terrestrial Microbiology, Max Planck Society;

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Citation

Wagner, T., Ermler, U., & Shima, S. (2016). The methanogenic CO₂ reducing-and-fixing enzyme is bifunctional and contains 46 [4Fe-4S] clusters. Science, 354(6308 Sp. Iss. SI), 114-117. doi:10.1126/science.aaf9284.

Cite as: https://hdl.handle.net/21.11116/0000-0007-BBAF-2

Abstract

Biological methane formation starts with a challenging adenosine triphosphate (ATP)–independent carbon dioxide (CO2) fixation process. We explored this enzymatic process by solving the x-ray crystal structure of formyl-methanofuran dehydrogenase, determined here as Fwd(ABCDFG)2 and Fwd(ABCDFG)4 complexes, from Methanothermobacter wolfeii. The latter 800-kilodalton apparatus consists of four peripheral catalytic sections and an electron-supplying core with 46 electronically coupled [4Fe-4S] clusters. Catalysis is separately performed by subunits FwdBD (FwdB and FwdD), which are related to tungsten-containing formate dehydrogenase, and subunit FwdA, a binuclear metal center carrying amidohydrolase. CO2 is first reduced to formate in FwdBD, which then diffuses through a 43-angstrom-long tunnel to FwdA, where it condenses with methanofuran to formyl-methanofuran. The arrangement of [4Fe-4S] clusters functions as an electron relay but potentially also couples the four tungstopterin active sites over 206 angstroms.