Abstract

Bacteria with a dual flagellar system, which consists of a polar flagellum (PF) and several lateral flagella (LF), have been identified in diverse environments. Nevertheless, whether and how these two flagellar systems interact with each other is largely unknown. In the present study, the relationship between the structural genes for the PF and LF of the deep-sea bacterium Shewanella piezotolerans WP3 was investigated by genetic, phenotypic and phylogenetic analyses. The mutation of PF genes induced the expression of LF genes and the production of LF in liquid medium, while the defective LF genes led to a decrease in PF gene transcription. However, the level of PF flagellin remained unchanged in LF gene mutants. Further investigation showed that the flgH2 gene (encoding LF L-ring protein) can compensate for mutations of the flgH1 gene (encoding PF L-ring protein), but this compensation does not occur between the flagellar hook-filament junction proteins (FlgL1, FlgL2). Swarming motility was shown to specifically require LF genes, and PF genes cannot substitute for the LF genes in the lateral flagella synthesis. Considering the importance of flagella-dependent motility for bacterial survival in the abyssal sediment, our study thus provided a better understanding of the adaptation strategy of benthic bacteria.

Highlights

  • Pressure and increased viscosity[7]

  • The induction of lateral flagella (LF) synthesis in liquid media following the disruption of polar flagellum (PF) or a decrease in PF motor rotation rate has been demonstrated in V. parahaemolyticus and Azospirillum lipoferum[22,23], and this phenomenon was observed in WP3 (Fig. 1)

  • The deletion of a WP3 LF gene significantly influenced the transcription of PF genes and swimming motility (Figs 1 and 3)

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Summary

Introduction

Pressure and increased viscosity[7]. A dual flagellar system has been identified in Shewanella piezotolerans WP3 (here referred to as WP3), which was isolated from West Pacific sediment at a depth of 1914 m8,9. The relationship between the polar and lateral flagellar structural genes is still largely unknown. It remains to be investigated whether the components of the dual flagellar system influence each other and whether they are interchangeable, they may share some common regulators. An LF L-ring protein FlgH2 could partially compensate the function of the PF protein FlgH1, the bacterium retained the ability to produce a PF and maintained their swimming motility. These findings contribute to a comprehensive understanding of the relationship between the dual flagellar systems in deep-sea bacteria

Methods
Results
Conclusion

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