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Giant flagellins form thick flagellar filaments in two species of marine γ-proteobacteria

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  • Nicholas M Thomson
  • Josie L Ferreira
  • Teige R Matthews-Palmer
  • Morgan Beeby
  • Mark J Pallen

Abstract

Flagella, the primary means of motility in bacteria, are helical filaments that function as microscopic propellers composed of thousands of copies of the protein flagellin. Here, we show that many bacteria encode “giant” flagellins, greater than a thousand amino acids in length, and that two species that encode giant flagellins, the marine γ-proteobacteria Bermanella marisrubri and Oleibacter marinus, produce monopolar flagellar filaments considerably thicker than filaments composed of shorter flagellin monomers. We confirm that the flagellum from B. marisrubri is built from its giant flagellin. Phylogenetic analysis reveals that the mechanism of evolution of giant flagellins has followed a stepwise process involving an internal domain duplication followed by insertion of an additional novel insert. This work illustrates how “the” bacterial flagellum should not be seen as a single, idealised structure, but as a continuum of evolved machines adapted to a range of niches.

Suggested Citation

  • Nicholas M Thomson & Josie L Ferreira & Teige R Matthews-Palmer & Morgan Beeby & Mark J Pallen, 2018. "Giant flagellins form thick flagellar filaments in two species of marine γ-proteobacteria," PLOS ONE, Public Library of Science, vol. 13(11), pages 1-12, November.
    • Handle: RePEc:plo:pone00:0206544
    DOI: 10.1371/journal.pone.0206544
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    References listed on IDEAS

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    1. Fengbin Wang & Andrew M. Burrage & Sandra Postel & Reece E. Clark & Albina Orlova & Eric J. Sundberg & Daniel B. Kearns & Edward H. Egelman, 2017. "A structural model of flagellar filament switching across multiple bacterial species," Nature Communications, Nature, vol. 8(1), pages 1-13, December.
    2. Fadel A. Samatey & Katsumi Imada & Shigehiro Nagashima & Ferenc Vonderviszt & Takashi Kumasaka & Masaki Yamamoto & Keiichi Namba, 2001. "Structure of the bacterial flagellar protofilament and implications for a switch for supercoiling," Nature, Nature, vol. 410(6826), pages 331-337, March.
    3. Koji Yonekura & Saori Maki-Yonekura & Keiichi Namba, 2003. "Complete atomic model of the bacterial flagellar filament by electron cryomicroscopy," Nature, Nature, vol. 424(6949), pages 643-650, August.
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    1. William R Taylor & Teige R S Matthews-Palmer & Morgan Beeby, 2016. "Molecular Models for the Core Components of the Flagellar Type-III Secretion Complex," PLOS ONE, Public Library of Science, vol. 11(11), pages 1-33, November.

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