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Characterization of Sigma Factor Genes in Streptomyces lividans TK24 Using a Genomic Library-Based Approach for Multiple Gene Deletions.

Rebets, Yuriy; Tsolis, Konstantinos C; Guðmundsdóttir, Elísabet Eik; Koepff, Joachim; Wawiernia, Beata; Busche, Tobias; Bleidt, Arne; Horbal, Liliya; Myronovskyi, Maksym; Ahmed, Yousra; Wiechert, Wolfgang; Rückert, Christian; Hamed, Mohamed B; Bilyk, Bohdan; Anné, Jozef; Friðjónsson, Ólafur; Kalinowski, Jörn; Oldiges, Marco; Economou, Anastassios; Luzhetskyy, Andriy.
Front Microbiol; 9: 3033, 2018.
Artigo em Inglês | MEDLINE | ID: mdl-30619125
Alternative sigma factors control numerous aspects of bacterial life, including adaptation to physiological stresses, morphological development, persistence states and virulence. This is especially true for the physiologically complex actinobacteria. Here we report the development of a robust gene deletions system for Streptomyces lividans TK24 based on a BAC library combined with the λ-Red recombination technique. The developed system was validated by systematically deleting the most highly expressed genes encoding alternative sigma factors and several other regulatory genes within the chromosome of S. lividans TK24. To demonstrate the possibility of large scale genomic manipulations, the major part of the undecylprodigiosin gene cluster was deleted as well. The resulting mutant strains were characterized in terms of morphology, growth parameters, secondary metabolites production and response to thiol-oxidation and cell-wall stresses. Deletion of SLIV_12645 gene encoding S. coelicolor SigR1 ortholog has the most prominent phenotypic effect, resulted in overproduction of actinorhodin and coelichelin P1 and increased sensitivity to diamide. The secreted proteome analysis of SLIV_12645 mutant revealed SigR1 influence on trafficking of proteins involved in cell wall biogenesis and refactoring. The reported here gene deletion system will further facilitate work on S. lividans strain improvement as a host for either secondary metabolites or protein production and will contribute to basic research in streptomycetes physiology, morphological development, secondary metabolism. On the other hand, the systematic deletion of sigma factors encoding genes demonstrates the complexity and conservation of regulatory processes conducted by sigma factors in streptomycetes.
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