Molybdenum–Iron–Sulfur Cluster with a Bridging Carbide Ligand as a Partial FeMoco Model: CO Activation, EPR Studies, and Bonding Insight

Creators: Le, Linh N. V.¹; He, Tianyi¹; Joyce, Justin P.²; Oyala, Paul H.¹; DeBeer, Serena²; Agapie, Theodor¹

1. California Institute of Technology
2. Max Planck Institute for Chemical Energy Conversion

Abstract

Nitrogenase enzymes catalyze the reduction of N₂ to NH₃ at a complex Fe-M (M = Mo, Fe, or V) cofactor (FeMco), which displays eight metal centers and sulfide and carbide bridges with a MFe₇S₈C composition. The role of the unusual μ₆-carbide ligand and its effects on the metal centers remain unclear. Here, we describe the transfer of a carbide ligand to a MoFe₃S₃ cluster supported by a bisphenoxide ligand from a previously reported terminal Mo carbide complex to yield a pentametallic cluster of MoS₃Fe₃CMo composition, which also displays a bridging CO that resembles the lo-CO form of nitrogenase. This cluster has an S = 1/2 spin state amenable to studies by pulse EPR spectroscopy, revealing a significantly larger carbide ¹³C hyperfine interaction (a_iso(¹³C) = 12.5 MHz) than any observed for various states of FeMoco studied by EPR thus far (|a_iso(¹³C)| = 0.89 to 2.7 MHz). This report provides a strategy for the synthesis of carbide-containing iron-sulfur clusters relevant to nitrogenase cluster modeling, as well as benchmarking information for the metal-carbon interactions by EPR methods.

Copyright and License

This publication is licensed under CC-BY-NC-ND 4.0 .

Acknowledgement

We are grateful to the National Institutes of Health (R01-GM102687B to T.A.) and the Humboldt Foundation for funding for T.A. (a Bessel Research Award) and J.P.J (a postdoctoral fellowship). We thank the Beckman Institute and the Dow Next Generation Grant for instrumentation support. J.P.J. and S.D. acknowledge the Max Planck Society for funding. We acknowledge beamline ID-26 at the European Synchrotron Radiation Facility (ESRF) for beamtime allocations.

Contributions

L.N.V.L., T.H., and J.P.J. contributed equally to this work.

Data Availability

All other relevant data generated and analyzed during this study, which include experimental, spectroscopic, and computational data, are available in the Edmond Open Research Data Repository at (Edmond Open Research Data Repository, DOI: 10.17617/3.2SIDW9) and in the Supporting Information described below.

Supplemental Material

General methods, synthetic procedures, product isolation and characterization, NMR spectra, structural information (PDF).

Additional Information

Deposition Number 2368659 contains the supplementary crystallographic data for this paper. These data can be obtained free of charge via the joint Cambridge Crystallographic Data Centre (CCDC) and Fachinformationszentrum Karlsruhe Access Structures service.

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