Global substitution of hemeproteins with noncanonical amino acids in Escherichia coli with intact cofactor maturation machinery

Abstract

Global substitution of canonical amino acids (cAAs) with noncanonical (ncAAs) counterparts in proteins whose function is dependent on post-translational events such as cofactor binding is still a methodically challenging and difficult task as ncAA insertion generally interferes with the cofactor biosynthesis machinery. Here, we report a technology for the expression of fully substituted and functionally active cofactor-containing hemeproteins. The maturation process which yields an intact cofactor is timely separated from cAA→ncAA substitutions. This is achieved by an optimised expression and fermentation procedure which includes pre-induction of the heme cofactor biosynthesis followed by an incorporation experiment at multiple positions in the protein sequence. This simple strategy can be potentially applied for engineering of other cofactor-containing enzymes.

Keywords: Cofactor maturation; Cytochrome c; Hemeproteins; Noncanonical amino acids; Selective pressure incorporation.