Nature Communications (Jul 2024)

FlhE functions as a chaperone to prevent formation of periplasmic flagella in Gram-negative bacteria

  • Manuel Halte,
  • Ekaterina P. Andrianova,
  • Christian Goosmann,
  • Fabienne F. V. Chevance,
  • Kelly T. Hughes,
  • Igor B. Zhulin,
  • Marc Erhardt

DOI
https://doi.org/10.1038/s41467-024-50278-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract The bacterial flagellum, which facilitates motility, is composed of ~20 structural proteins organized into a long extracellular filament connected to a cytoplasmic rotor-stator complex via a periplasmic rod. Flagellum assembly is regulated by multiple checkpoints that ensure an ordered gene expression pattern coupled to the assembly of the various building blocks. Here, we use epifluorescence, super-resolution, and transmission electron microscopy to show that the absence of a periplasmic protein (FlhE) prevents proper flagellar morphogenesis and results in the formation of periplasmic flagella in Salmonella enterica. The periplasmic flagella disrupt cell wall synthesis, leading to a loss of normal cell morphology resulting in cell lysis. We propose that FlhE functions as a periplasmic chaperone to control assembly of the periplasmic rod, thus preventing formation of periplasmic flagella.