Adenylation domains of nonribosomal peptide synthetase: A potential biocatalyst for synthesis of dipeptides and their derivatives.

Dipeptides and their derivatives are important functional compounds that can be applied to fields such as medicine and food. As biological macromolecules, the adenylation domains of nonribosomal peptide synthetase (NRPS) can recognize and activate various building blocks, such as amino acids, for the biosynthesis of nonribosomal peptides. In this way, the amide bond formation can be achieved through a nucleophilic reaction where the adenylation domain serves as a biocatalyst and is further used to conduct dipeptide synthesis. In this study, the adenylation domains (BAA2, BBA2, and BCA4) of bacitracin synthetase were predicted and expressed. The substrate evaluation results showed that adenylation domains displayed broad substrate selectivity for amino acids in vitro. Furthermore, the use of dipeptide synthesis in adenylation domains suggested that the polarity of amino acids could have an influence on nucleophilic reactions. Finally, L-alanyl-L-glutamine and aspartame were successfully synthesized through catalysis by the adenylation domains BAA2 and BCA4, respectively. This study expands on approaches to the synthesis of functional dipeptides and their derivatives based on the chemoenzymatic process.