Spectroscopic Properties of a Biologically Relevant [Fe2(μ‐O)2] Diamond Core Motif with a Short Iron‐Iron Distance

Abstract

Diiron cofactors in enzymes perform diverse challenging transformations. The structures of high valent intermediates (Q in methane monooxygenase and X in ribonucleotide reductase) are debated since Fe−Fe distances of 2.5–3.4 Å were attributed to “open” or “closed” cores with bridging or terminal oxido groups. We report the crystallographic and spectroscopic characterization of a FeIII2(μ-O)2 complex (2) with tetrahedral (4C) centres and short Fe−Fe distance (2.52 Å), persisting in organic solutions. 2 shows a large Fe K-pre-edge intensity, which is caused by the pronounced asymmetry at the TD FeIII centres due to the short Fe−μ−O bonds. A ≈2.5 Å Fe−Fe distance is unlikely for six-coordinate sites in Q or X, but for a Fe2(μ-O)2 core containing four-coordinate (or by possible extension five-coordinate) iron centres there may be enough flexibility to accommodate a particularly short Fe−Fe separation with intense pre-edge transition. This finding may broaden the scope of models considered for the structure of high-valent diiron intermediates formed upon O2 activation in biology.

Description

Keywords

Bioinorganic Chemistry, Diamond Core, Intermediate Q, Iron Cofactors, Soluble Methane Monooxygenase

Dewey Decimal Classification

540 Chemie und zugeordnete Wissenschaften

References

Citation

Kass, Dustin, Yao, Shenglai, Krause, Konstantin, Corona, Teresa, Richter, Liza, Braun, Thomas, Mebs, Stefan, Haumann, Michael, Dau, Holger, Lohmiller, Thomas, Limberg, Christian, Drieß, Matthias, Ray, Kallol.(2023). Spectroscopic Properties of a Biologically Relevant [Fe2(μ‐O)2] Diamond Core Motif with a Short Iron‐Iron Distance. Angewandte Chemie / International edition, 62(10). 10.1002/anie.202209437