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The MerR-like protein BldC binds DNA direct repeats as cooperative multimers to regulate Streptomyces development

Author

Listed:
  • Maria A. Schumacher

    (Duke University School of Medicine)

  • Chris D. Hengst

    (John Innes Centre)

  • Matthew J. Bush

    (John Innes Centre)

  • T. B. K. Le

    (John Innes Centre)

  • Ngat T. Tran

    (John Innes Centre)

  • Govind Chandra

    (John Innes Centre)

  • Wenjie Zeng

    (Duke University School of Medicine)

  • Brady Travis

    (Duke University School of Medicine)

  • Richard G. Brennan

    (Duke University School of Medicine)

  • Mark J. Buttner

    (John Innes Centre)

Abstract

Streptomycetes are notable for their complex life cycle and production of most clinically important antibiotics. A key factor that controls entry into development and the onset of antibiotic production is the 68-residue protein, BldC. BldC is a putative DNA-binding protein related to MerR regulators, but lacks coiled-coil dimerization and effector-binding domains characteristic of classical MerR proteins. Hence, the molecular function of the protein has been unclear. Here we show that BldC is indeed a DNA-binding protein and controls a regulon that includes other key developmental regulators. Intriguingly, BldC DNA-binding sites vary significantly in length. Our BldC-DNA structures explain this DNA-binding capability by revealing that BldC utilizes a DNA-binding mode distinct from MerR and other known regulators, involving asymmetric head-to-tail oligomerization on DNA direct repeats that results in dramatic DNA distortion. Notably, BldC-like proteins radiate throughout eubacteria, establishing BldC as the founding member of a new structural family of regulators.

Suggested Citation

  • Maria A. Schumacher & Chris D. Hengst & Matthew J. Bush & T. B. K. Le & Ngat T. Tran & Govind Chandra & Wenjie Zeng & Brady Travis & Richard G. Brennan & Mark J. Buttner, 2018. "The MerR-like protein BldC binds DNA direct repeats as cooperative multimers to regulate Streptomyces development," Nature Communications, Nature, vol. 9(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03576-3
    DOI: 10.1038/s41467-018-03576-3
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