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Symmetry states of metalloporphyrin π-cation radicals, models for peroxidase compound I

✍ Scribed by James Terner; Avram Gold; Raymond Weiss; Dominique Mandon; Alfred X. Trautwein

Publisher: John Wiley and Sons
Year: 2001
Tongue: English
Weight: 134 KB
Volume: 05
Category: Article
ISSN: 1088-4246
DOI: 10.1002/jpp.315

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✦ Synopsis

Oxoferryl porphyrin π-cation radical active sites of compound I intermediates which are found in enzymes such as peroxidases and catalases have been extensively modeled by oxidized synthetic metalloporphyrins. The electronic symmetry states of these compounds were initially assigned on the basis of electronic absorption data. In recent years new experimental and theoretical results have become available which have led to a re-evaluation and modification of the original assignments. A historical perspective of these developments is provided in the context of recent NMR, resonance Raman, and other spectroscopic data and theoretical calculations for the synthetic models and enzymatic systems.

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A CAS SCF study of the iron-oxo-porphyrin π radical cation: Similarity in FeO electronic structure between peroxidase compounds I and II

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CAS SCF (complete active space SCF) calculations have been carried out on the ion-oxo-porphine A radical cation, which is a model for peroxidase compound I and catalase compound II. It is found that the electronic structure of the Fe-0 bond is unchanged by removal of an electron from a porphine II: