Ca²⁺‐independent sortase‐A exhibits high selective protein ligation activity in the cytoplasm of Escherichia coli

A Staphylococcus aureus transpeptidase, sortase A (SrtA), which catalyzes a peptide ligation with high substrate specificity, is a useful tool to site‐specifically attach proteinaceous/peptidic functional molecules to target proteins. However, its strong Ca²⁺ dependency makes SrtA difficult for use under low Ca²⁺ concentrations and in the presence of Ca²⁺‐binding substances. To overcome this problem, we designed a SrtA mutant that Ca²⁺‐independently demonstrates a high catalytic activity. The heptamutant (P94R/E105K/E108A/D160N/D165A/K190E/K196T), which resulted from a combination of known mutations at the Ca²⁺‐binding site and around the substrate‐binding site, successfully catalyzed a selective protein‐protein ligation in the cytoplasm of Escherichia coli. Selective protein modification in living cells is a promising approach for investigating cellular events and regulating cell functions. This SrtA mutant may prove to be a versatile tool for adding new functionalities to proteins of interest by incorporating functional proteins and chemically modified peptides in living cells, which usually retain low Ca²⁺ concentrations.