Literature DB >> 31215866

Silencing cryptic specialized metabolism in Streptomyces by the nucleoid-associated protein Lsr2.

Emma J Gehrke1,2, Xiafei Zhang1,2, Sheila M Pimentel-Elardo3, Andrew R Johnson4, Christiaan A Rees5, Stephanie E Jones1,2, Sebastian S Gehrke2,6, Sonya Turvey1,2, Suzanne Boursalie1,2, Jane E Hill5, Erin E Carlson4,7, Justin R Nodwell3, Marie A Elliot1,2.   

Abstract

Lsr2 is a nucleoid-associated protein conserved throughout the actinobacteria, including the antibiotic-producing Streptomyces. Streptomyces species encode paralogous Lsr2 proteins (Lsr2 and Lsr2-like, or LsrL), and we show here that of the two, Lsr2 has greater functional significance. We found that Lsr2 binds AT-rich sequences throughout the chromosome, and broadly represses gene expression. Strikingly, specialized metabolic clusters were over-represented amongst its targets, and the cryptic nature of many of these clusters appears to stem from Lsr2-mediated repression. Manipulating Lsr2 activity in model species and uncharacterized isolates resulted in the production of new metabolites not seen in wild type strains. Our results suggest that the transcriptional silencing of biosynthetic clusters by Lsr2 may protect Streptomyces from the inappropriate expression of specialized metabolites, and provide global control over Streptomyces' arsenal of signaling and antagonistic compounds.
© 2019, Gehrke et al.

Entities:  

Keywords:  DNA-binding protein; Streptomyces; antibiotics; infectious disease; microbiology; nucleoid-associated protein; repressor; specialized metabolism

Mesh:

Substances:

Year:  2019        PMID: 31215866      PMCID: PMC6584129          DOI: 10.7554/eLife.47691

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  85 in total

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7.  Combining transposon mutagenesis and reporter genes to identify novel regulators of the topA promoter in Streptomyces.

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