A soluble enzyme activity that attaches free diaminopimelic acid to bdelloplast peptidoglycan

Abstract

An enzyme activity, responsible for the attachment of diaminopimelic acid (DAP) to bdelloplast wall peptidoglycan, was studied in an in vitro, cell-free system. Most of the activity was found in the high-speed (20000g) supernatant fraction of homogenates of bdelloplasts prepared from a culture of the intracellular bacterium Bdellovibrio bacteriovorus 109J, growing synchronously within cells of Escherichia coli. Peptidoglycan preparations obtained either from E. coli ML35 or from the walls of bdelloplasts synchronously cultured for 40 or 90 min served as the acceptors in this reaction, whereas cell wall or peptidoglycan preparations obtained from Gram-positive bacteria could not function as acceptors of DAP. The attachment activity had an apparent Km value for DAP of 10 .mu.M; for bdelloplast peptidoglycan, it was approximately 0.43 mg/mL, which is 13 .mu.M with respect to peptidoglycan disaccharide peptide units. DAP attachment was partially inhibited by the structural analogues lanthionine, L-ornithine, .beta.-aminobutyric acid, and D-serine, as well as the cell wall synthesis inhibitors penicillin G, ampicillin, and cephalexin. This enzyme activity is present only during the intracellular stage of the bdellovibrio''s developmental growth cycle and may serve a stage-specific function of biochemically modifying the cell in which it grows.