Streptomyces globisporus 1912 produces a novel angucycline antitumor antibiotic landomycin E (LE). To study the LE biosynthetic gene cluster in detail, a system for the conjugal transfer of the integrative plasmid pSET152 from Escherichia coli into S. globisporus 1912 has been developed. It was shown that this plasmid integrates into two sites of the S. globisporus chromosome and is stably inherited under nonselective conditions. pSET152+ exconjugants of the strain 1912 are characterized by a significant decrease in LE synthesis (by 50-90%). A negative effect of pSET152 integration on antibiotic production was observed even upon the use of the recipient strain with increased LE synthesis, although in this case, the level of LE production in ex-conjugants was 120-150% of that in the original strain 1912. Based on pSET152, a vector system for gene knockouts in S. globisporus was developed. The effectivity of this system was shown in the example of disruption of the lndA gene encoding the key enzyme of LE synthesis (beta-ketoacylsynthase). Inactivation of this gene was shown to lead to the cessation of LE biosynthesis.
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Streptomyces globisporus 1912 and its derivatives 1912-2 and 1912-4Crt are the producers of the landomycin E, carotenoids and the regulator of antibiotics biosynthesis and morphogenesis of streptomycetes. The genome DNA of two mutant strains, 1912-2, the more effective producer of the landomycin E and the regulator, and 1912-4Crt, the producer of beta-carotene and lycopene, was sequenced by Illumina. Comparative analysis of the DNA sequences using GenBank data allowed localization of 36 landomycin E biosynthetic genes lnd of S.
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