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Swarming motility



Swarming motility is a rapid (2-10 μm/s.) and coordinated translocation of a bacterial population across solid or semi-solid surfaces. This type of motility is an example of an emerging concept in microbiology : bacterial multicellularity. Swarming motility was first reported by Jorgen Henrichsen[1] and has been mostly studied in genus Serratia[2][3], Salmonella[4], Aeromonas[5], Bacillus[6], Yersinia[7], Pseudomonas[8][9][10][11][12], Proteus[13], Vibrio[14][15] and Escherichia[16][17] .

This multicellular behavior has been mostly observed in controlled laboratory conditions and relies on two critical elements: 1) the nutrient composition and 2) viscosity of culture medium (i.e. % agar)[4]. One particular feature of this type of motility is the formation of dendritic fractal-like patterns formed by migrating swarms moving away from an initial location. Although the majority of species can produce tendrils when swarming, some species like Proteus mirabilis do form concentric circles motif instead of dendritic patterns.  

Contents

Biosurfactant, quorum sensing and swarming

In some species, swarming motility requires the self-production of biosurfactant to occur[18][4]. Biosurfactant synthesis is usually under the control of an intercellular communication system called quorum sensing. Biosurfactant molecules are believed to act by lowering surface tension, thus permitting bacteria to move across a surface.

Cellular differentiation

Swarming bacteria undergo morphological differentiation that disctinct them from their planktonic state. Cells localized at migration front are typically hyperelongated, hyperflagellated and grouped in multicellular raft structures[19][10][11].

Ecological significance

The fundamental role of swarming motility remains unknown. However, it has been observed that active swarming bacteria of Salmonella typhimurium shows an elevated resistance to certain antibiotics compared to undifferentiated cells[20].

References

  1. ^ [Henrichsen, J. (1972) Bacteriol. Rev. 36, 478-503.].
  2. ^ [Alberti, L. & Harshey, R. M. (1990) J. Bacteriol. 172, 4322-4328.].
  3. ^ [Eberl, L., Molin, S., & Givskov, M. (1999) J. Bacteriol. 181, 1703-1712.].
  4. ^ a b c [Harshey, R. M. (1994) Mol. Microbiol. 13, 389-394.].
  5. ^ [Kirov, S. M., Tassell, B. C., Semmler, A. B., O'Donovan, L. A., Rabaan, A. A., & Shaw, J. G. (2002) J. Bacteriol. 184, 547-555.].
  6. ^ [Kearns, D. B. & Losick, R. (2003) Mol. Microbiol. 49, 581–590.].
  7. ^ [Young, G. M., Smith, M. J., Minnich, S. A., & Miller, V. L. (1999) J. Bacteriol. 181, 2823-2833.].
  8. ^ [Déziel, É., Lépine, F., Milot, S., & Villemur, R. (2003) Microbiol. 149, 2005-2013.].
  9. ^ [Tremblay, J., Richardson, A.-P., Lépine, F., & Déziel, É. (2007) Environ. Microbiol. 9, 2622-2630.].
  10. ^ a b [Kohler, T., Curty, L. K., Barja, F., van Delden, C., & Pechere, J. C. (2000) J. Bacteriol. 182, 5990-5996.].
  11. ^ a b [Rashid, M. H. & Kornberg, A. (2000) Proc. Natl. Acad. Sci. U. S. A. 97, 4885-4890.].
  12. ^ [Caiazza, N. C., Shanks, R. M. Q., & O’Toole, G. A. (2005) J. Bacteriol. 187, 7351-7361.].
  13. ^ [Rather, P. N. (2005) Environ Microbiol 7, 1065-1073.].
  14. ^ [McCarter, L. & Silverman, M. (1990) Mol. Microbiol. 4, 1057-1062.].
  15. ^ [McCarter, L. L. (2004) J Mol Microbiol Biotechnol 7, 18-29.].
  16. ^ [Harshey, R. M. & Matsuyama, T. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 8631-8635.].
  17. ^ [Burkart, M., Toguchi, A., & Harshey, R. M. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 2568-2573.].
  18. ^ [Daniels, R., Vanderleyden, J., & Michiels, J. (2004) FEMS Microbiol. Rev. 28, 261-289.].
  19. ^ [Julkowska, D., Obuchowski, M., Holland, B., & Séror, S. J. (2004) Microbiol. 150, 1839–1849.].
  20. ^ [Kim, W., Killam, T., Sood, V., & Surette, M. G. (2003) J. Bacteriol. 185, 3111–3117.].
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Swarming_motility". A list of authors is available in Wikipedia.
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