Modeling tyrosinase activity. Effect of ligand topology on aromatic ring hydroxylation: An overview

Synthetic modeling of tyrosinase (o-phenol ring hydroxylation) has emerged as a novel class of successful biomimetic studies. It is a well-established fact that the reaction of dioxygen with copper(I) complexes of m-xylyl-based ligands generate putative copper-oxygen intermediate species such as side-on peroxo {Cu-2(II)(mu-O-2)}(2+) [in some cases bis-oxo {Cu-2(III)(mu-O)(2)}(2+) in equilibrium with isomeric side-on peroxo], due to oxygen activation. Electrophilic attack of such species brings about monooxygenase activity by incorporating one of the oxygens to m-xylyl ring of the ligand and the other oxygen is reduced to hydroxide ion. The goal of this review is to provide a concise overview of the present day knowledge in this field of research to emphasize the important role the designed ligands play in eliciting the desired tyrosinase-like chemistry. (C) 2008 Elsevier Inc. All rights reserved.