Biology:Exiguobacterium undae

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Short description: Species of bacterium

Exiguobacterium undae
Scientific classification edit
Domain: Bacteria
Phylum: Bacillota
Class: Bacilli
Order: Bacillales
Family: Bacillaceae
Genus: Exiguobacterium
Species:
E. undae
Binomial name
Exiguobacterium undae
Frühling et al., 2002[1]

Exiguobacterium undae is a species of Bacilli. Its discovery was published in the International Journal of Systematic and Evolutionary Microbiology (Frühling et al., 2002).[1] This species has the ability to metabolize arabinose, cellulose, fructose, and glucose. It may undergo fermentation by utilizing D-glucose, D-mannitol, D-ribose, and glycogen (Bacdive 2021).[2] E. undae is motile and it contains peritrichous flagella.

Physiology

E. undae was first sampled from the surface of a garden pond in Wolfenbuttel, Lower Saxony, Germany (Frühling et al., 2002).[1] The pond water containing this species was streaked by researchers onto glucose sulfide (GS) medium (DSMZ 851). Four strains, L1-L4, were acquired from the garden pond and successfully isolated in tryptone soy agar at room temperature (Frühling et al., 2002).[1] E. undae is a Gram-positive, rod-shaped bacterium that is motile and yellow-orange in color (Bacdive 2021).[2] It is facultatively anaerobic and catalase- and oxidase-positive (Frühling et al., 2002).[1] After 2 days of incubation at 25°C, 2-3 mm surface colonies of the E. undae can form on tryptone soy agar; the colonies are convex, entire, and shiny (Frühling et al., 2002).[1]

Ecology

The genus Exiguobacteria has been detected from water and soil samples on all continents. Strain DR14 of this species was isolated from Dadri wetlands in India (Chauhan et al., 2018).[3] Certain strains have been shown to be able to grow in soils that contain high concentrations of cadmium and immobilize it, which displays some potential for their use in bioremediation (Kumar et al., 2014).[4]

Special features

E. undae strain DR14 have the ability to degrade polystyrene (PS) and use it as a carbon source by initiating biofilm formation (Chauhan et al., 2018).[3] Researchers incubated the bacterium in the presence of PS for 20 days and demonstrated that the PS had been biodegraded by measuring the water contact angle of the material after incubation (Chauhan et al., 2018).[3] This finding suggests that DR14 can change the surface characteristics of PS to make it easier to colonize and metabolize.

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 Fruhling, A. (1 July 2002). "Exiguobacterium undae sp. nov. and Exiguobacterium antarcticum sp. nov". International Journal of Systematic and Evolutionary Microbiology 52 (4): 1171–1176. doi:10.1099/ijs.0.02185-0. PMID 12148624. 
  2. 2.0 2.1 Reimer, L.C.; Sarda Carbasse, J.; Koblitz, J.; Podstawka, A.; Overmann, J. (2021-12-21), "Strain-linked information about bacterial and archaeal biodiversity" (in en), Exiguobacterium undae Frühling et al. 2002, DSMZ, doi:10.13145/bacdive18108.20211221.6, https://bacdive.dsmz.de/index.php?site=pdf_view&id=18108&doi=doi:10.13145/bacdive18108.20211221.6, retrieved 2022-05-07 
  3. 3.0 3.1 3.2 Chauhan, Deepika; Agrawal, Guncha; Deshmukh, Sujit; Roy, Susanta Sinha; Priyadarshini, Richa (2018). "Biofilm formation by Exiguobacterium sp. DR11 and DR14 alter polystyrene surface properties and initiate biodegradation". RSC Advances 8 (66): 37590–37599. doi:10.1039/c8ra06448b. PMID 35558609. Bibcode2018RSCAd...837590C. 
  4. Kumari, Deepika; Pan, Xiangliang; Lee, Duu-Jong; Achal, Varenyam (2014). "Immobilization of cadmium in soil by microbially induced carbonate precipitation with Exiguobacterium undae at low temperature" (in en). International Biodeterioration & Biodegradation 94: 98–102. doi:10.1016/j.ibiod.2014.07.007. https://linkinghub.elsevier.com/retrieve/pii/S096483051400225X. 

Wikidata ☰ Q25858464 entry