The incorporation of non-proteinogenic amino acids (NPAAs) enriches the structural diversity of nonribosomal peptides. Recently, four NPAA-containing cyclic hexapeptides, longicatenamides A-D, were isolated using a combined-culture strategy. Based on in silico analysis, we discovered their putative biosynthetic gene cluster (lon) and proposed a possible biosynthetic mechanism. Surprisingly, the lon22 gene encodes an atypical arginine dihydrolase, which can also catalyze the hydrolysis of citrulline to ornithine. Phylogenetic analysis showed that Lon22-like proteins form a novel clade that is separated from other guanidine-modifying enzymes. After rational design, the catalytic efficiencies of a Lon22 Y80F mutant for arginine and citrulline substrates were 2.31- and 4.70-fold that of the wild-type (WT), respectively. In addition, characterization of the Lon20-A4 adenylation domain suggested that it can incorporate both ornithine and lysine into the final products.
Keywords: arginine dihydrolase; biosynthesis; cyclic peptide; enzyme kinetics; molecular docking.
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