The aminocoumarin antibiotics novobiocin, clorobiocin and coumermycin A1 are produced by different Streptomyces strains. They are potent inhibitors of bacterial gyrase and topoisomerase IV, and novobiocin has been licensed as antibiotic for clinical use (Albamycin®). They also have potential applications in oncology. The biosynthetic gene clusters of all three antibiotics have been cloned and sequenced, and the function of nearly all genes contained therein has been elucidated. Rapid and versatile methods have been developed for the heterologous expression of these biosynthetic gene clusters, and in Streptomyces coelicolor M512 as heterologous host these antibiotics were produced in yields comparable to those in the natural producer strains. λ RED-mediated homologous recombination was used for genetic modification of the gene clusters in Escherichia coli. The phage φC31 attachment site and integrase functions were introduced into the cosmid backbones and employed for stable integration of the clusters into the genome of the heterologous hosts. Modification of the clusters by single or multiple gene replacements or gene deletions resulted in the formation of numerous new aminocoumarin derivatives, providing an efficient tool for the rational generation of antibiotics with modified structure. Additionally, many new antibiotics were generated by mutasynthesis experiments, i.e. the targeted deletion of genes required for the biosynthesis of a certain structural moiety of the antibiotic, and the replacement of this moiety by structural analogs which were added to the culture broth. The diversity of new structures obtained by this approach could be expanded by further genetic modifications of the gene deletion mutants, especially by expression of heterologous biosynthetic enzymes with appropriate substrate specificity.
Keywords: acyl carrier protein, Novobiocin, clorobiocin analogs, genetic manipulations, Streptomyces coelicolor
Rights & PermissionsPrintExport