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Genetic approaches to improve clorobiocin production in Streptomyces roseochromogenes NRRL 3504.

Sofia MelnykAnastasia StepanyshynOleksandr YushchukMichael MandlerIryna OstashOksana KoshlaVictor FedorenkoDaniel KahneBohdan Ostash
Published in: Applied microbiology and biotechnology (2022)
Streptomyces roseochromogenes NRRL 3504 is best known as a producer of clorobiocin, a DNA replication inhibitor from the aminocoumarin family of antibiotics. This natural product currently draws attention as a promising adjuvant for co-application with other antibiotics against Gram-negative multidrug-resistant pathogens. Herein, we expand the genetic toolkit for NRRL 3504 by showing that a set of integrative and replicative vectors, not tested previously for this strain, could be conjugally transferred at high frequency from Escherichia coli to NRRL 3504. Using this approach, we leverage a cumate-inducible expression of cluster-situated regulatory gene novG to increase clorobiocin titers by 30-fold (up to approximately 200 mg/L). To our best knowledge, this is the highest level of clorobiocin production reported so far. Our findings set a working ground for further improvement of clorobiocin production as well as for the application of genetic methods to illuminate the cryptic secondary metabolome of NRRL 3504. Key Points • Efficient system for conjugative transfer of plasmids into NRRL 3504 was developed. • Expression of regulatory genes in NRRL 3504 led to increase in clorobiocin titer. • Secondary metabolome of NRRL 3504 becomes an accessible target for genetic manipulations using the expanded vector set and improved intergeneric conjugation protocol.
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