Influence of steric hindrance on the core geometry and sulfoxidation chemistry of carboxylate-rich diiron(II) complexes

Erwin Reisner, Tanya C. Abikoff, Stephen J. Lippard

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The asymmetric terphenyl-2′-carboxylate ligand 3,5-dimethyl-1, 1′:3′,1″-terphenyl-2′-carboxylate, -O 2CArPh,Xyl, was prepared in high yield. This ligand facilitates the assembly of the diiron(II) complexes [Fe2(μ-O 2CArTol)2(O2CArPh,Xy|) 2-(THF)2] [2, -O2CArTol = 2,6-di-p-tolylbenzoate], [Fe2(μ-O2CAr Tol)2(O2CArPh,Xy|) 2(pyridine)2] (5), [Fe2(μ-O 2CArPh,Xyl)2-(O2CAr Ph,Xyl)2(THF)2] (3), and [Fe 2(μ-O2CArPh,Xy|)2(O 2CArPh,Xy|)2(pyridine)2] (6), all of which have a windmill geometry. The iron-iron distance of 3.355[10] Å in 6 is ∼1 Å shorter than that in the analogue [Fe2(μ- O2CArTol)2(O2CArTol) 2-(pyridine)2] (4) and similar to the ∼3.3 Å metal-metal separation at the active site of the reduced diiron(II) form of the soluble methane monooxygenase hydroxylase enzyme (MMOHred). A series of ortho-substituted picolyl-based ligands, 2-picSMe, 2-picSEt, 2-picS tBu, 2-picSPh, 2-picSPh(Me3) (Ph(Me3) = mesityl), and 2-picSPh(iPr3) (Ph(iPr 3) = 2,4,6-triisopropylphenyl), were prepared and allowed to react with [Fe2(μ-O2CAr)2(O2CAr) 2(THF)2] to produce [Fe2(μ-O 2CAr)3(O2CAr)(picSR)] (7-13, Ar = Ar Tol or ArPh,Xyl) complexes in 45-87% yields. The substrates tethered to the pyridine N-donor ligands picSR, where R = Me, Et, tBu, or Ph, coordinate to one iron atom of the diiron(II) center by the nitrogen and sulfur atoms to form a five-membered chelate ring. The Fe-S distance becomes elongated with increasing steric hindrance imparted by the R group. The most sterically hindered ligands, 2-picSPh(Me3) and 2-picSPh(iPr3), bind to the metal only through the pyridine nitrogen atom. The reactions of several of these complexes with dioxygen were investigated, and the oxygenated products were analyzed by 1H NMR spectroscopy and GC/MS measurements following decomposition on a Chelex resin. The amount of sulfoxidation product is correlated with the Fe⋯S distance. The ratio of oxidized to unoxidized thioether substrate varies from 3.5, obtained upon oxygenation of the weakly coordinated 2-picSPh ligand in 10, to 1.0, obtained for the bulky 2-picSPh(iPr 3) ligand in 12, for which the iron-sulfur distance is >4 Å. External thioether substrates were not oxidized when present in oxygenated solutions of paddlewheel and windmill diiron(II) complexes containing 1-methylimidazole or pyridine ligands, respectively. © 2007 American Chemical Society.
    Original languageEnglish
    Pages (from-to)10229-10240
    Number of pages11
    JournalInorganic Chemistry: including bioinorganic chemistry
    Volume46
    Issue number24
    DOIs
    Publication statusPublished - 26 Nov 2007

    Keywords

    • Enzyme functional sites (active
    • sulfoxidn. of thioethers tethered in thiomethylpyridine ligands coordinated to diiron(II) carboxylate complexes as mimics of methane monooxygenase hydroxylase (MMOH) reactivity)
    • Steric hindrance (in sulfoxidn. of thioethers tethered in thiomethylpyridine ligands coordinated to diiron(II) carboxylate complexes)
    • Carboxylic acids Role: PRP (Properties), RCT (Reactant), SPN (Synthetic preparation), PREP (Preparation), RACT (Reactant or reagent) (iron complexes
    • prepn. and crystal structures of diiron(II) mixed carboxylate complexes with donor ligands and of diiron(II) carboxylate thiomethylpyridine complexes, and thioether sulfoxidn. as MMOH mimic)
    • Crystal structure
    • Molecular structure (of diiron(II) mixed carboxylate complexes with donor ligands and of diiron(II) carboxylate thiomethylpyridine complexes)
    • Sulfoxidation (of thioethers tethered in thiomethylpyridine ligands coordinated to diiron(II) carboxylate complexes as mimics of methane monooxygenase hydroxylase (MMOH) reactivity)
    • Thioethers Role: RCT (Reactant), RACT (Reactant or reagent) (sulfoxidn. of thioethers tethered in thiomethylpyridine ligands coordinated to diiron(II) carboxylate complexes as mimics of methane monooxygenase hydroxylase (MMOH) reactivity)
    • crystal structure dinuclear iron mixed carboxylate thiomethylpyridine deriv
    • MMOH mimic sulfoxidn dinuclear iron carboxylate thiomethylpyridine complex
    • sulfoxidn thiomethylpyridine ligand diiron carboxylate mimic methane monooxygenase hydroxylase
    • steric hindrance sulfoxidn thiomethylpyridine ligand diiron carboxylate complex

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