The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442

The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442

Streptomyces bacteria make numerous secondary metabolites, including half of all known antibiotics. Production of antibiotics is usually coordinated with the onset of sporulation but the cross regulation of these processes is not fully understood. This is important because most Streptomyces antibiot...

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Main Authors: Nicolle F. Som, Daniel Heine, Neil A. Holmes, John T. Munnoch, Govind Chandra, Ryan F. Seipke, Paul A. Hoskisson, Barrie Wilkinson, Matthew I. Hutchings
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-06-01
Series:Frontiers in Microbiology
Subjects:
chloramphenicol
cell division
mtrA
Streptomyces
antibiotics
Online Access:http://journal.frontiersin.org/article/10.3389/fmicb.2017.01145/full
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spelling doaj-150e51c10e1a4f9c9bd81308b48430f22020-11-24T20:51:06ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2017-06-01810.3389/fmicb.2017.01145264816The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442Nicolle F. Som0Daniel Heine1Neil A. Holmes2John T. Munnoch3Govind Chandra4Ryan F. Seipke5Ryan F. Seipke6Paul A. Hoskisson7Barrie Wilkinson8Matthew I. Hutchings9School of Biological Sciences, University of East AngliaNorwich, United KingdomDepartment of Molecular Microbiology, John Innes CentreNorwich, United KingdomSchool of Biological Sciences, University of East AngliaNorwich, United KingdomSchool of Biological Sciences, University of East AngliaNorwich, United KingdomDepartment of Molecular Microbiology, John Innes CentreNorwich, United KingdomSchool of Biological Sciences, University of East AngliaNorwich, United KingdomSchool of Molecular and Cellular Biology, Astbury Centre for Structural Molecular Biology, University of LeedsLeeds, United KingdomStrathclyde Institute of Pharmacy and Biomedical Sciences, University of StrathclydeGlasgow, United KingdomDepartment of Molecular Microbiology, John Innes CentreNorwich, United KingdomSchool of Biological Sciences, University of East AngliaNorwich, United KingdomStreptomyces bacteria make numerous secondary metabolites, including half of all known antibiotics. Production of antibiotics is usually coordinated with the onset of sporulation but the cross regulation of these processes is not fully understood. This is important because most Streptomyces antibiotics are produced at low levels or not at all under laboratory conditions and this makes large scale production of these compounds very challenging. Here, we characterize the highly conserved actinobacterial two-component system MtrAB in the model organism Streptomyces venezuelae and provide evidence that it coordinates production of the antibiotic chloramphenicol with sporulation. MtrAB are known to coordinate DNA replication and cell division in Mycobacterium tuberculosis where TB-MtrA is essential for viability but MtrB is dispensable. We deleted mtrB in S. venezuelae and this resulted in a global shift in the metabolome, including constitutive, higher-level production of chloramphenicol. We found that chloramphenicol is detectable in the wild-type strain, but only at very low levels and only after it has sporulated. ChIP-seq showed that MtrA binds upstream of DNA replication and cell division genes and genes required for chloramphenicol production. dnaA, dnaN, oriC, and wblE (whiB1) are DNA binding targets for MtrA in both M. tuberculosis and S. venezuelae. Intriguingly, over-expression of TB-MtrA and gain of function TB- and Sv-MtrA proteins in S. venezuelae also switched on higher-level production of chloramphenicol. Given the conservation of MtrAB, these constructs might be useful tools for manipulating antibiotic production in other filamentous actinomycetes.http://journal.frontiersin.org/article/10.3389/fmicb.2017.01145/fullchloramphenicolcell divisionmtrAStreptomycesantibiotics
collection DOAJ
language English
format Article
sources DOAJ
author Nicolle F. Som
Daniel Heine
Neil A. Holmes
John T. Munnoch
Govind Chandra
Ryan F. Seipke
Ryan F. Seipke
Paul A. Hoskisson
Barrie Wilkinson
Matthew I. Hutchings
spellingShingle Nicolle F. Som
Daniel Heine
Neil A. Holmes
John T. Munnoch
Govind Chandra
Ryan F. Seipke
Ryan F. Seipke
Paul A. Hoskisson
Barrie Wilkinson
Matthew I. Hutchings
The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
Frontiers in Microbiology
chloramphenicol
cell division
mtrA
Streptomyces
antibiotics
author_facet Nicolle F. Som
Daniel Heine
Neil A. Holmes
John T. Munnoch
Govind Chandra
Ryan F. Seipke
Ryan F. Seipke
Paul A. Hoskisson
Barrie Wilkinson
Matthew I. Hutchings
author_sort Nicolle F. Som
title The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
title_short The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
title_full The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
title_fullStr The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
title_full_unstemmed The Conserved Actinobacterial Two-Component System MtrAB Coordinates Chloramphenicol Production with Sporulation in Streptomyces venezuelae NRRL B-65442
title_sort conserved actinobacterial two-component system mtrab coordinates chloramphenicol production with sporulation in streptomyces venezuelae nrrl b-65442
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2017-06-01
description Streptomyces bacteria make numerous secondary metabolites, including half of all known antibiotics. Production of antibiotics is usually coordinated with the onset of sporulation but the cross regulation of these processes is not fully understood. This is important because most Streptomyces antibiotics are produced at low levels or not at all under laboratory conditions and this makes large scale production of these compounds very challenging. Here, we characterize the highly conserved actinobacterial two-component system MtrAB in the model organism Streptomyces venezuelae and provide evidence that it coordinates production of the antibiotic chloramphenicol with sporulation. MtrAB are known to coordinate DNA replication and cell division in Mycobacterium tuberculosis where TB-MtrA is essential for viability but MtrB is dispensable. We deleted mtrB in S. venezuelae and this resulted in a global shift in the metabolome, including constitutive, higher-level production of chloramphenicol. We found that chloramphenicol is detectable in the wild-type strain, but only at very low levels and only after it has sporulated. ChIP-seq showed that MtrA binds upstream of DNA replication and cell division genes and genes required for chloramphenicol production. dnaA, dnaN, oriC, and wblE (whiB1) are DNA binding targets for MtrA in both M. tuberculosis and S. venezuelae. Intriguingly, over-expression of TB-MtrA and gain of function TB- and Sv-MtrA proteins in S. venezuelae also switched on higher-level production of chloramphenicol. Given the conservation of MtrAB, these constructs might be useful tools for manipulating antibiotic production in other filamentous actinomycetes.
topic chloramphenicol
cell division
mtrA
Streptomyces
antibiotics
url http://journal.frontiersin.org/article/10.3389/fmicb.2017.01145/full
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