In Vitro Reconstitution of Formylglycine-Generating Enzymes Requires Copper(I)

Formylglycine-generating enzymes (FGEs) catalyze O2 -dependent conversion of specific cysteine residues of arylsulfatases and alkaline phosphatases into formylglycine. The ability also to introduce unique aldehyde functions into recombinant proteins makes FGEs a powerful tool for protein engineering. One limitation of this technology is poor in vitro activity of reconstituted FGEs. Although FGEs have been characterized as cofactor-free enzymes we report that the addition of one equivalent of Cu(I) increases catalytic efficiency more than 20-fold and enables the identification of stereoselective C-H bond cleavage at the substrate as the rate-limiting step. These findings remove previous limitations of FGE-based protein engineering and also pose new questions about the catalytic mechanism of this O2 -utilizing enzyme.