Regioselective peroxo-dependent heme alkylation in P450(BM3)-F87G by aromatic aldehydes: effects of alkylation on cataysis.

Cytochrome P450(BM3)-F87G reacts with aromatic aldehydes and hydrogen peroxide to generate covalent heme adducts in a reaction that may involve the formation of a stable isoporphyrin intermediate [Raner, G. M., Hatchell, A.

Converting a maltose receptor into a nascent binuclear copper oxygenase by computational design.

Computational protein design methods were used to identify mutations that are predicted to introduce a binuclear copper center coordinated by six histidines, replacing the maltose-binding site in Escherichia coli maltose-binding protein (MBP) with an oxygen-binding site. A small family of five candidate designs consisting of 9 to 10 mutations each was constructed by oligonucleotide-directed mutagenesis. These mutant proteins were expressed and purified, and their stability, copper- and cobalt-binding properties, and interactions of the resulting metalloprotein complexes with azide, hydrogen peroxide, and dioxygen were characterized.