Abstract
A key goal of synthetic biology is to enable designed modification of peptides and proteins, both in vivo and in vitro. N- and C-Terminal modification enzymes are crucial in this regard, but there are a few enzymatic options to protect peptide termini. AgeMTPT protects the N-terminus of short peptides with isoprene and the C-terminus as a methyl ester, but its substrate scope is unknown, limiting its application. Here, we investigate the substrate selectivity of the prenyltransferase domain, revealing a requirement for N-terminal aromatic amino acids, but with tolerance for diverse uncharged amino acids in the remaining positions. To demonstrate the potential of the enzyme, substrate selectivity data were used in the enzymatic modification of leu-enkephalin at the critical N-terminal residue. AgeMTPT active site mutagenesis led to an enzyme with expanded substrate scope, including the reverse geranylation of the N-termini of peptides. These data reveal potential applications of enzymatic peptide protection in synthetic biology.
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