Gene networks regulating secondary metabolism in actinomycetes: Pleiotropic regulators

Current advances in the research and practical application of pleiotropic regulatory genes for antibiotic production in actinomycetes are reviewed. The basic regulatory mechanisms discovered in these bacteria are outlined. The examples described in the review show the importance of the manipulation of regulatory systems that affect the synthesis of antibiotics for the metabolic engineering of actinomycetes. Also, the study of these genes is the basis for the development of genetic engineering approaches to the induction of the “cryptic” part of the actinomycetes secondary metabolome, the capacity of which for the production of biologically active compounds is much larger than the diversity of antibiotics underpinned by traditional microbiological screening. Besides practical problems, the study of regulatory genes for antibiotic biosynthesis will provide insights into the process of evolution of complex regulatory systems that coordinate the expression of gene operons, clusters, and regulons, involved in the control of the secondary metabolism and morphogenesis of actinomycetes.