Frontiers in Microbiology (Mar 2024)

BacA: a possible regulator that contributes to the biofilm formation of Pseudomonas aeruginosa

  • Lisa Wallart,
  • Mohamed Amine Ben Mlouka,
  • Mohamed Amine Ben Mlouka,
  • Brahim Saffiedine,
  • Laurent Coquet,
  • Laurent Coquet,
  • Hung Le,
  • Hung Le,
  • Julie Hardouin,
  • Julie Hardouin,
  • Thierry Jouenne,
  • Gilles Phan,
  • Marie-Christine Kiefer-Meyer,
  • Eric Girard,
  • Isabelle Broutin,
  • Pascal Cosette,
  • Pascal Cosette

DOI
https://doi.org/10.3389/fmicb.2024.1332448
Journal volume & issue
Vol. 15

Abstract

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Previously, we pointed out in P. aeruginosa PAO1 biofilm cells the accumulation of a hypothetical protein named PA3731 and showed that the deletion of the corresponding gene impacted its biofilm formation capacity. PA3731 belongs to a cluster of 4 genes (pa3732 to pa3729) that we named bac for “Biofilm Associated Cluster.” The present study focuses on the PA14_16140 protein, i.e., the PA3732 (BacA) homolog in the PA14 strain. The role of BacA in rhamnolipid secretion, biofilm formation and virulence, was confirmed by phenotypic experiments with a bacA mutant. Additional investigations allow to advance that the bac system involves in fact 6 genes organized in operon, i.e., bacA to bacF. At a molecular level, quantitative proteomic studies revealed an accumulation of the BAC cognate partners by the bacA sessile mutant, suggesting a negative control of BacA toward the bac operon. Finally, a first crystallographic structure of BacA was obtained revealing a structure homologous to chaperones or/and regulatory proteins.

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