Abstract
Alkaline D-peptidase (Adp) from Bacillus cereus DF4-B is a D-stereospecific endopeptidase acting on oligopeptides composed of D-phenylalanine and the primary structure deduced from its gene, adp, shows a similarity with D-stereospecific hydrolases from Ochrobactrum anthropi strains. We have isolated DNA fragments covering the flanking region of adp from DF4-B genome and found an additional gene, adp2, located upstream of adp. The deduced amino acid sequence of Adp2 showed 96% and 85% identity with those of Adp from B. cereus strains AH559 and DF4-B, respectively. The recombinant Adp2 expressed in Escherichia coli was purified to homogeneity and characterized. It had hydrolyzing activity toward ( D-Phe) 3, ( D-Phe) 4, and ( D-Phe) 6 but did not act on ( L-Phe) 4, D-Phe-NH 2, and L-Phe-NH 2, some characteristics that are closely related to those of Adp from strain DF4-B. These results indicate that highly homologous genes encoding D-stereospecific endopeptidases are arranged in a tandem manner on the genomic DNA of B. cereus DF4-B.
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