Microorganisms (Jun 2023)

The FilZ Protein Contains a Single PilZ Domain and Facilitates the Swarming Motility of <i>Pseudoalteromonas</i> sp. SM9913

  • Qi Sheng,
  • Ang Liu,
  • Peiling Yang,
  • Zhuowei Chen,
  • Peng Wang,
  • Haining Sun,
  • Chunyang Li,
  • Andrew McMinn,
  • Yin Chen,
  • Yuzhong Zhang,
  • Hainan Su,
  • Xiulan Chen,
  • Yuqiang Zhang

DOI
https://doi.org/10.3390/microorganisms11061566
Journal volume & issue
Vol. 11, no. 6
p. 1566

Abstract

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Swarming regulation is complicated in flagellated bacteria, especially those possessing dual flagellar systems. It remains unclear whether and how the movement of the constitutive polar flagellum is regulated during swarming motility of these bacteria. Here, we report the downregulation of polar flagellar motility by the c-di-GMP effector FilZ in the marine sedimentary bacterium Pseudoalteromonas sp. SM9913. Strain SM9913 possesses two flagellar systems, and filZ is located in the lateral flagellar gene cluster. The function of FilZ is negatively controlled by intracellular c-di-GMP. Swarming in strain SM9913 consists of three periods. Deletion and overexpression of filZ revealed that, during the period when strain SM9913 expands quickly, FilZ facilitates swarming. In vitro pull-down and bacterial two-hybrid assays suggested that, in the absence of c-di-GMP, FilZ interacts with the CheW homolog A2230, which may be involved in the chemotactic signal transduction pathway to the polar flagellar motor protein FliMp, to interfere with polar flagellar motility. When bound to c-di-GMP, FilZ loses its ability to interact with A2230. Bioinformatic investigation indicated that filZ-like genes are present in many bacteria with dual flagellar systems. Our findings demonstrate a novel mode of regulation of bacterial swarming motility.

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