Halomonas titanicae: Difference between revisions
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==Description and significance== | ==Description and significance== | ||
''Halomonas titanicae'' is a gram-negative, bacilli shaped bacterium from strain BH1T. It's 0.5–0.8×1.5–6.0 μm in size It’s a motile microorganism which moves using flagella, and it has a peritrichous appearance. It is a psychrotolerant mesophile, it grows best between 30-37 degrees Celsius but is capable of growth at temperatures as low as 4 degrees Celsius [ | ''Halomonas titanicae'' is a gram-negative, bacilli shaped bacterium from strain BH1T. It's 0.5–0.8×1.5–6.0 μm in size It’s a motile microorganism which moves using flagella, and it has a peritrichous appearance. It is a psychrotolerant mesophile, it grows best between 30-37 degrees Celsius but is capable of growth at temperatures as low as 4 degrees Celsius [2]. This enables it to survive in the cold temperatures in its habitat at the bottom of the ocean. This bacterium collects on the side of metal surfaces, and was discovered on the ship the RMS Titanic. This bacterium was isolated from porous structures of corrosive by-product called rusticles. Rusticles also house 27 other species bacteria[2,3]. | ||
''H. titanicae'' is significant because it is capable of accelerating the speed of which metals are corroded. Scientists are now gaining more information in regards to its destructive power. In 1995, scientists had thought the structure of the titanic would last 30 more years. However, with this bacterium’s destructive ability, it could be less than expected[3]. Although a tragedy to the Titanic, this new bacterium can be utilized to recycle the metal on other sea wrecks sitting idle on the ocean floor. By studying the structure and capabilities of ''H. titanicae'' new paints and coatings can be created that will aid in preserving ships and prevent against their degradation. | ''H. titanicae'' is significant because it is capable of accelerating the speed of which metals are corroded. Scientists are now gaining more information in regards to its destructive power. In 1995, scientists had thought the structure of the titanic would last 30 more years. However, with this bacterium’s destructive ability, it could be less than expected[3]. Although a tragedy to the Titanic, this new bacterium can be utilized to recycle the metal on other sea wrecks sitting idle on the ocean floor. By studying the structure and capabilities of ''H. titanicae'' new paints and coatings can be created that will aid in preserving ships and prevent against their degradation. | ||
Revision as of 23:29, 30 October 2011
A Microbial Biorealm page on the genus Halomonas titanicae
Classification
Higher order taxa
Domain: Bacteria
Phylum: Proteobacteria
Class: Gannaproteobacteria
Order: Oceanospirillales
Family: Halomandacae
Genus: Halomonas
Species: Halomonas titanicae [1]
Species
H. titanicaeNEUF2011
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NCBI: Taxonomy |
Genus species
Description and significance
Halomonas titanicae is a gram-negative, bacilli shaped bacterium from strain BH1T. It's 0.5–0.8×1.5–6.0 μm in size It’s a motile microorganism which moves using flagella, and it has a peritrichous appearance. It is a psychrotolerant mesophile, it grows best between 30-37 degrees Celsius but is capable of growth at temperatures as low as 4 degrees Celsius [2]. This enables it to survive in the cold temperatures in its habitat at the bottom of the ocean. This bacterium collects on the side of metal surfaces, and was discovered on the ship the RMS Titanic. This bacterium was isolated from porous structures of corrosive by-product called rusticles. Rusticles also house 27 other species bacteria[2,3].
H. titanicae is significant because it is capable of accelerating the speed of which metals are corroded. Scientists are now gaining more information in regards to its destructive power. In 1995, scientists had thought the structure of the titanic would last 30 more years. However, with this bacterium’s destructive ability, it could be less than expected[3]. Although a tragedy to the Titanic, this new bacterium can be utilized to recycle the metal on other sea wrecks sitting idle on the ocean floor. By studying the structure and capabilities of H. titanicae new paints and coatings can be created that will aid in preserving ships and prevent against their degradation.
Due to its environment this bacterium is difficult to grow under laboratory conditions. Further research on it is difficult because it's challenging to reproduce colonies in a setting other than its natural habitat.
Genome structure
Describe the size and content of the genome. How many chromosomes? Circular or linear? Other interesting features? What is known about its sequence?
The genome size is 1453 base pairs (bp) and is linear. Due to of the high variability of the 16S rRNA gene it was amplified and analyzed to classify the bacterium as a Halomonas (its closest relative being H. neptunia). The C+G content of the strain that this bacterium is from has been found to be 60.0 mol%. This high C+G content enable the bacterium in being stable in the extreme environment it lives in.
Cell structure and metabolism
Interesting features of cell structure; how it gains energy; what important molecules it produces.
The Halomonas titanicae bacteria are gram-negative bacilli that are typically unpigmented or yellow tinted. It is an extreme halophile,salt loving, with peritrichous flagella for motility.
As a chemo-organotrophic organism its metabolism is respiratory. Catalase as well as oxidase are produced. They ferment D-galactose, D-glucose and D-fructose. They are capable of anaerobic growth with the aid of glucose but in addition they are able to perform denitrification to gain energy through taking nitrate, but not nitrite, and converting it to nitrogen.
It is known as a "steel munching" bacteria because it metabolizes steel rust as with the Titanic. When the bacteria breaks down the rust it gains energy in the form of electrons from the degradation iron that is present.
Ecology
Habitat; symbiosis; contributions to the environment.
Halomonas titanicae inhabits a niche in the depths of the ocean where temperature is low and salt concentration is considerable. It belongs to the family Halomonadaceae, which generally inhabits environments that are salty. H. Titanicae's optimal salt concentration is 2.0-8.0%, but can function between 0.5-25.0%. This bacterium clings to metal because that’s its main energy source. H. Titancae is valuable in decomposing metal located in the ocean, removing and recycling unwanted ship wrecks, oil rigs, and other metal sitting idle on the ocean floor. Although other species of bacteria are found in the rusticles with H.titanicae it is uncertain at this point if these organisms have a symbiotic relationship. Research is still being conducted to determine of other species in the rusticles contribute to the degradation of the metal as well.
Pathology
How does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.
Whiles some Halomonas strains have been shown to infect humans, currently there is no known evidence that H. titanicae has any pathological links in infecting humans or plants. It is, however, hazardous to metals, specifically those which contain high levels of rust.
Current Research
Enter summaries of the most recent research here--at least three required
In 2010 Sanchez-Porro, et. al, were able to isolate H. titanicae and identify it as a new species. In their article these researchers give information regarding the bacterium's cell structure, size, metabolism, genome, and the niche it inhibits.
Further research is encouraged in the scientific community based upon the capabilities of current systems in relation to Halomonas titanicae. If there were some way to prevent H. titanicae growth on certain objects on the ocean floor, and subsequent decomposition of these objects, then structures such as oil rigs and other ocean deep engineering projects could have a much longer life span.
Cool Factor
Describe something you fing "cool" about this microbe.
The environment which the H. titanicae lives is very interesting. The idea that there is a living organism promoting rust at extremely low temperatures seems hard to believe since these living conditions are harsh.
Additionally it is really interesting that something as small as a Halomonas titanicae bacterium could basically destroy something so grand and historically momentus as the Titanic. Scientists indicate that in just a few more decades the wreck of the RMS Titanic will be no more. In some ways that's a little sad because the world is losing a part of its history, but in other ways it is kind of cool that the Earth has developed a way of recycling itself to this extent, obtaining energy from the most unlikely places.
References
Edited by student of Iris Keren 50. p. 489-500.]
1. Sanchez-Porro, C., Kaur, B., Mann, H., Ventosa, A. (2010). "Halomonas titanicae sp. nov., a halophilic bacterium isolated from the RMS titanic." International Journal of Systematic and Evolutionary microbiology 60(12): 2768-2774.
2. (2010). "Halomonas titanicae, a new form of bacteria." from http://coolscience.com.au/halomonas-titanicae.php.
Liu, W., Wang, J., Yuan, M. (2010). "Halomonas aidingensis sp. nov., a moderately halophilic bacterium isolated from Aiding salt lake in Xinjiang, China." Springer 99(3).
