Ligand binding to the FeMo-cofactor: Structures of CO-bound and reactivated nitrogenase

Ligand binding to the FeMo-cofactor: Structures of CO-bound and reactivated nitrogenase

The mechanism of nitrogenase remains enigmatic, with a major unresolved issue concerning how inhibitors and substrates bind to the active site.We report a crystal structure of carbon monoxide (CO)–inhibited nitrogenase molybdenum-iron (MoFe)–protein at 1.50 angstrom resolution, which reveals a CO mo...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-09, Vol.345 (6204), p.1620-1623
Hauptverfasser: Spatzal, Thomas, Perez, Kathryn A., Einsle, Oliver, Howard, James B., Rees, Douglas C.
Format: Artikel
Sprache:eng
Schlagworte:
ammonia
Atmospheric chemistry
Binding
Biomolecules
biosynthesis
Carbon monoxide
Carbon Monoxide - chemistry
Catalytic Domain
Chemical bonds
Coordination compounds
Crystal structure
Crystallography, X-Ray
Earth atmosphere
Enzyme Activation
Enzymes
Inhibitors
Ligands
metalloproteins
Molybdoferredoxin - antagonists & inhibitors
Molybdoferredoxin - chemistry
Nitrogen
Nitrogen Fixation
nitrogenase
Protein Binding
Substrates
Sulfur - chemistry
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Zusammenfassung:The mechanism of nitrogenase remains enigmatic, with a major unresolved issue concerning how inhibitors and substrates bind to the active site.We report a crystal structure of carbon monoxide (CO)–inhibited nitrogenase molybdenum-iron (MoFe)–protein at 1.50 angstrom resolution, which reveals a CO molecule bridging Fe2 and Fe6 of the FeMo-cofactor. The μ₂ binding geometry is achieved by replacing a belt-sulfur atom (S2B) and highlights the generation of a reactive iron species uncovered by the displacement of sulfur. The CO inhibition is fully reversible as established by regain of enzyme activity and reappearance of S2B in the 1.43 angstrom resolution structure of the reactivated enzyme. The substantial and reversible reorganization of the FeMo-cofactor accompanying CO binding was unanticipated and provides insights into a catalytically competent state of nitrogenase.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1256679