Substrate specificity of nonribosomal peptide synthetase modules responsible for the biosynthesis of the oligopeptide moiety of cephabacin inLysobacter lactamgenus

Abstract

Lysobacter lactamgenus produces cephabacins, a class of beta-lactam antibiotics which have an oligopeptide moiety attached to the cephem ring at the C-3 position. The nonribosomal peptide synthetase (NRPS) system, which comprises four distinct modules, is required for the biosynthesis of this short oligopeptide, when one takes the chemical structure of these antibiotics into consideration. The cpbI gene, which has been identified in a region upstream of the pcbAB gene, encodes the NRPS - polyketide synthase hybrid complex, where NRPS is composed of three modules, while the cpbK gene -- which has been reported as being upstream of cpbI-- comprises a single NRPS module. An in silico protein analysis was able to partially reveal the specificity of each module. The four recombinant adenylation (A) domains from each NRPS module were heterologously expressed in Escherichia coli and purified. Biochemical data from ATP-PPi exchange assays indicated that L-arginine was an effective substrate for the A1 domain, while the A2, A3 and A4 domains activated L-alanine. These findings are in an agreement with the known chemical structure of cephabacins, as well as with the anticipated substrate specificity of the NRPS modules in CpbI and CpbK, which are involved in the assembly of the tetrapeptide at the C-3 position.