Streptomyces rimosus is used for production of the broad-spectrum antibiotic oxytetracycline (OTC). S. rimosus belongs to Actinomyces species, a large group of microorganisms that produce diverse set of natural metabolites of high importance in many aspects of our life. In this chapter, we describe specific molecular biology methods and a classical homologous recombination approach for targeted in-frame deletion of a target gene or entire operon in S. rimosus genome. The presented protocols will guide you through the design of experiment and construction of homology arms and their cloning into appropriate vectors, which are suitable for gene-engineering work with S. rimosus. Furthermore, two different protocols for S. rimosus transformation are described including detailed procedure for targeted gene replacement via double crossover recombination event. Gene deletion is confirmed by colony PCR, and colonies are further characterized by cultivation and metabolite analysis. As the final step, we present in trans complementation of the deleted gene, to confirm functionality of the engineering approach achieved by gene disruption. A number of methodological steps and protocols are optimized for S. rimosus strains including the use of the selected reporter genes. Protocols described in this chapter can be applied for studying function of any individual gene product in diverse OTC-producing Streptomyces rimosus strains.
Keywords: Complementation; Crossover; Fermentation; Gene deletion; Homologous recombination; In-frame; Replica plating; Reporter gene; Strain engineering; Streptomyces rimosus.