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Unique inducible filamentous motility identified in pathogenic Bacillus cereus group species.


ABSTRACT: Active migration across semi-solid surfaces is important for bacterial success by facilitating colonization of unoccupied niches and is often associated with altered virulence and antibiotic resistance profiles. We isolated an atmospheric contaminant, subsequently identified as a new strain of Bacillus mobilis, which showed a unique, robust, rapid, and inducible filamentous surface motility. This flagella-independent migration was characterized by formation of elongated cells at the expanding edge and was induced when cells were inoculated onto lawns of metabolically inactive Campylobacter jejuni cells, autoclaved bacterial biomass, adsorbed milk, and adsorbed blood atop hard agar plates. Phosphatidylcholine (PC), bacterial membrane components, and sterile human fecal extracts were also sufficient to induce filamentous expansion. Screening of eight other Bacillus spp. showed that filamentous motility was conserved amongst B. cereus group species to varying degrees. RNA-Seq of elongated expanding cells collected from adsorbed milk and PC lawns versus control rod-shaped cells revealed dysregulation of genes involved in metabolism and membrane transport, sporulation, quorum sensing, antibiotic synthesis, and virulence (e.g., hblA/B/C/D and plcR). These findings characterize the robustness and ecological significance of filamentous surface motility in B. cereus group species and lay the foundation for understanding the biological role it may play during environment and host colonization.

SUBMITTER: Liu MM 

PROVIDER: S-EPMC7784679 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Unique inducible filamentous motility identified in pathogenic Bacillus cereus group species.

Liu Martha M MM   Coleman Shannon S   Wilkinson Lauren L   Smith Maren L ML   Hoang Thomas T   Niyah Naomi N   Mukherjee Manjari M   Huynh Steven S   Parker Craig T CT   Kovac Jasna J   Hancock Robert E W REW   Gaynor Erin C EC  

The ISME journal 20200807 12


Active migration across semi-solid surfaces is important for bacterial success by facilitating colonization of unoccupied niches and is often associated with altered virulence and antibiotic resistance profiles. We isolated an atmospheric contaminant, subsequently identified as a new strain of Bacillus mobilis, which showed a unique, robust, rapid, and inducible filamentous surface motility. This flagella-independent migration was characterized by formation of elongated cells at the expanding ed  ...[more]

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