Conventional ureases possess dinuclear nickel active sites that are oxygen-stable and require a set of accessory proteins for metallocenter biosynthesis. By contrast, oxygen-labile ureases have active sites containing dual ferrous ions and lack a requirement for maturation proteins. The structures of the two types of urease are remarkably similar, with an active site architecture that includes two imidazoles and a carboxylate ligand coordinated to one metal, two imidazoles coordinated to the second metal, and a metal-bridging carbamylated lysine ligand. The electronic spectrum of the diferric form of the enzyme resembles that of methemerythrin. Resonance Raman spectroscopic analyses confirm the presence of a μ-oxo ligand and indicate the presence of one or more terminal solvent ligands.
Keywords: Dinuclear iron; Resonance Raman spectroscopy; Urease.