Corynebacterium uropygiale explained
Corynebacterium uropygiale is a bacterium described in 2016 following thorough investigations using a polyphasic approach including MALDI-TOF mass spectrometry, phylogeny of 16S rRNA and rpoB genes and DNA fingerprinting. To date, it has been regarded as endemic to preen gland secretions of healthy turkeys (Meleagris gallopavo).[1] [2] It is a member of the genus Corynebacterium,[1] which belongs to the phylum Actinomycetota.[3] Although a large number of bacteria including corynebacteria have been reported as part of the normal microbiome of birds,[4] [5] [6] [7] [8] C. uropygiale is the only member of the genus that has been recovered in preen gland secretions of birds. It is one of three bacterial species to have been found to colonize preen gland secretions of birds.[1]
Culture conditions
C. uropygiale grows on complex media supplemented with monounsaturated fatty acids (e. g. lysogeny broth (LB) agar supplemented with 0.3% Tween-80). On such media, luxurious growth is obtained after 48 h of incubation at 37°C. C. uropygiale can also be grown on Columbia agar containing 5% sheep blood, but faint growth is obtained. C. uropygiale does not show significant growth on media, such as LB, tryptic-soy agar, or Mueller–Hinton agar. The presence or absence of CO2 does not influence growth characteristics.[1]
Characteristics
C. uropygiale is a fastidious, club-shaped, Gram-positive, rod that assembles in palisades and V-shaped patterns. They are non-acid fast and non-spore-forming facultative anaerobes. Their cell walls contain mycolic acids. G+C content accounts for 60.7 mol% in the type strain.[1] The closest relative is C. spheniscorum,[1] which has been recovered from the Magellanic penguin (Spheniscus magellanicus).[9]
Lipophilism
C. uropygiale is capable of proliferating in lipid-rich environments, such as the preen gland. It uses the fatty acids of its surroundings rather than synthesizing them by itself. C. uropygiale has adapted its metabolism to its habitat, as it lost the ability to produce these fatty acids by itself. In terms of evolution, this saves energy and potentially increases fitness.[1] [2] [10]
External links
Notes and References
- Markus Santhosh Braun, Stefan Zimmermann, Maria Danner, Harun-or Rashid, Michael Wink, "Corynebacterium uropygiale sp. nov., isolated from the preen gland of Turkeys (Meleagris gallopavo)," Systematic and Applied Microbiology, Volume 39, Issue 2, March 2016, Pages 88-92,
- Web site: Sensation im Zoo Heidelberg: Neue Art entdeckt | Zoo Heidelberg . https://web.archive.org/web/20161231172114/https://www.zoo-heidelberg.de/sensation-im-zoo-heidelberg-neue-art-entdeckt . 2016-12-31 . dead. Zoo Heidelberg. German.
- Book: K.A.. Bernard. G.. Funke. Genus I. Corynebacterium. M.. Goodfellow. P.. Kämpfer. H.-J.. Busse. M. E.. Trujillo. K.. Suzuki. W.. Ludwig. W.B.. Whitman. Bergey's Manual of Systematic Bacteriology. Second. Springer. New York. 2012. 5. 245-288. 978-0-387-95043-3. 10.1007/978-0-387-68233-4.
- D.R.. Singleton. R.G.. Harper. Bacteria in Old House Wren Nests. Journal of Field Ornithology. 69. 1. 1998. 71–74. 4514289.
- Hubálek. Z.. Juřicová. J. . Halouzka. J.. A survey of free-living birds as hosts and 'lessors' of microbial pathogens. Folia Zoologica. 44. 1. 1995. 1–11.
- Z.. Hubálek. Interspecific affinity among keratinolytic fungi associated with birds. Folia Parasitologica. 23. 3. 1976. 267–272. 1034590. 15 January 2023.
- Cooper. J.E.. Historical survey of disease in birds. Journal of Zoo and Wildlife Medicine. 24. 1993. 256–264. 3. 20095277.
- Cooper. J.E.. Birds and zoonoses . Ibis. 132. 2. 1990. 181–191. 10.1111/j.1474-919X.1990.tb01037.x.
- J.. Goyache. A.I.. Vela. M.D.. Collins. C.. Ballesteros. V.. Briones. J.. Moreno. P.. Yorio. L.. Domínguez. R.. Hutson. J.F.. Fernández-Garayzábal. 6. Corynebacterium spheniscorum sp. nov., isolated from the cloacae of wild penguins. International Journal of Systematic and Evolutionary Microbiology. 53. 2003. 43–46. 1. 10.1099/ijs.0.02343-0. free. 12656150.
- Web site: Braun. Markus Santhosh. Wink. Michael. Dining at extraordinary locations: New species of bacteria on fatty diet. Atlas of Science. 15 January 2023. 23 May 2016.