The Effects of Axial Ligands on Electron Distribution and Spin States in Iron Complexes of Octaethyloxophlorin, Intermediates in Heme Degradation

Rath, Sankar Prasad ; Olmstead, Marilyn M. ; Balch, Alan L. (2004) The Effects of Axial Ligands on Electron Distribution and Spin States in Iron Complexes of Octaethyloxophlorin, Intermediates in Heme Degradation Journal of the American Chemical Society, 126 (20). pp. 6379-6386. ISSN 0002-7863

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Official URL: http://doi.org/10.1021/ja0316014

Related URL: http://dx.doi.org/10.1021/ja0316014

Abstract

The results presented here show that the nature of the axial ligand can alter the distribution of electrons between the metal and the porphyrin in complexes where there is an oxygen atom replacing one of the meso protons. The complexes (1-MeIm)2FeIII(OEPO) and (2,6-xylylNC)2FeII(OEPO•) (where OEPO is the trianionic octaethyloxophlorin ligand and OEPO• is the dianionic octaethyloxophlorin radical) were prepared by addition of an excess of the appropriate axial ligand to a slurry of {FeIII(OEPO)}2 in chloroform under anaerobic conditions. The magnetic moment of (2,6-xylylNC)2FeII(OEPO•) is temperature invariant and consistent with a simple S = 1/2 ground state. This complex with an EPR resonance at g = 2.004 may be considered as a model for the free-radical like EPR signal seen when the meso-hydroxylated heme/heme oxygenase complex is treated with carbon monoxide. In contrast, the magnetic moment of (1-MeIm)2FeIII(OEPO) drops with temperature and indicates a spin-state change from an S = 5/2 or an admixed S = 3/2,5/2 state at high temperatures (near room temperature) to an S = 1/2 state at temperatures below 100 K. X-ray diffraction studies show that each complex crystallizes in centrosymmetric form with the expected six-coordinate geometry. The structure of (1-MeIm)2FeIII(OEPO) has been determined at 90, 129, and 296 K and shows a gradual and selective lengthening of the Fe−N(axial bond). This behavior is consistent with population of a higher spin state at elevated temperatures.

Item Type:Article
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ID Code:120937
Deposited On:07 Jul 2021 07:40
Last Modified:07 Jul 2021 07:40

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