Biochemistry and genetics of chloramphenicol production

In Streptomyces venezuelae, chloramphenicol is derived by an unusual diversion of chorismate, the branchpoint intermediate of the pathway involved in the biosynthesis of aromatic amino acids. In the chloramphenicol-producing organism, the DAHP synthetase was neither feedback inhibited nor repressed. Chorismate mutase was not repressed or inhibited by the intermediates or end-products of the shikimate-chorismate pathway. However, anthranilate synthetase and prephenate dehydratase are feedback inhibited by tryptophan and phenylalanine, respectively. During growth, when primary metabolism is not perfectly coordinated, decreasing demand for aromatic amino acids results in shunting of chorismate towards chloramphenicol biosynthesis.The endogenous synthesis of chloramphenicol produced by Streptomyces venezuelae is inhibited by the increasing concentration of chloramphenicol in the medium. Arylamine synthetase, the first enzyme involved in chloramphenicol biosynthesis, is repressed by the secreted chloramphenicol, by dl-p-aminophenylalanine and l-threo-p-aminophenylserinol. The excess intracellular chorismate pool is diverted to other aromatic shunt metabolites if biosynthesis of chloramphenicol is inhibited. There appears to be a glutamine binding protein subunit which is shared by several enzymes involved in amination of the aromatic ring of chorismate.Chloramphenicol producing organism also inactivated intracellular chloramphenicol. However, the resistance of the streptomycetes is due to inducible impermeability of the organism to chloramphenicol during antibiotic production. Streptomyces venezuelae is sensitive to chloramphenicol when it is not engaged in antibiotic production. The resistance to and production of chloramphenicol are induced simultaneously.A linkage map for 17 marker loci using Streptomyces venezuelae has been constructed. Restriction enzyme map of a plasmid from the chloramphenicol-producing streptomycetes has also been developed. The role of the plasmid in chloramphenicol biosynthesis and the life-cycle of the Streptomyces venezuelae is not yet understood.