Thiomargarita namibiensis: Difference between revisions

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==References==
==References==
{{reflist|2}}


http://www.accessexcellence.org/WN/SUA12/marg499.php
2. http://www.accessexcellence.org/WN/SUA12/marg499.php


http://web.mst.edu/~microbio/BIO221_2005/T_namibiensis.htm
3. http://web.mst.edu/~microbio/BIO221_2005/T_namibiensis.htm


http://www.scienceagogo.com/news/19990318191806data_trunc_sys.shtml
4. http://www.scienceagogo.com/news/19990318191806data_trunc_sys.shtml


http://www.whoi.edu/oceanus/viewImage.do?id=5667&aid=2497
5. http://www.whoi.edu/oceanus/viewImage.do?id=5667&aid=2497


http://www.madsci.org/posts/archives/2006-06/1151465295.Mi.r.html
6. http://www.madsci.org/posts/archives/2006-06/1151465295.Mi.r.html


http://en.wikipedia.org/wiki/Thiomargarita_namibiensis
7. http://en.wikipedia.org/wiki/Thiomargarita_namibiensis

Revision as of 17:19, 13 May 2009


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Description and significance

Thiomargarita namibiensis is the largest known bacterium and was discovered in 1997.[1] It is also referred to as the “Sulfur pearl of Namibia” because it looks like a large pearl made out of white globules of sulfur and was found off the coast of Namibia. The cell is generally 0.1 - 0.3 mm wide, although some become as large as 1.0 mm, and is approximately 3 million times the volume of a normal bacterium cell.

Genome structure

Once discovered scientist were able to place Thiomargarita Namibiensis in to the phylogenetic tree were they concluded that Thiomargarita Namibiensis is closing related to the bacterial genera Triploca and Beggiatoa because of the high sulfur enivorment it is able to survive in. Thiomargarita Namibiensis is from the family of bacteria known as Thiotrichaceae.

Cell structure and metabolism

Thiomargarita Namibiensis is a chemolithotroph, which means that it obtains its electrons required for the electron transport chain from nitrates rather then organic molecules. The sulfur granules found in the cytoplasm of this organism is due to the oxidation of Hydrogen Sulfide in to sulfur. Thiomargarita Namibiensis is a non-motile organism, due to this it must wait for its nitrate supply and store it for long periods of time. The cytoplasm of Thiomargarita Namibiensis lines the cell membrane, giving the bacterium the flexibility to diffuse the nitrate from its surroundings.Thiomargarita Namibiensis contains a large vacuole which is 80% of its size in its cytoplasm for the shortage of nitrates and can survive three months at a time if nitrate supply is low in its environment.

Ecology

Pathology

As of current day research Thiomargarita Namibiensis is not known to be a pathogenic bacterium.

Application to Biotechnology

Current Research

Heide N. Schulz and Horst D. Schulz Large Sulfur Bacteria and the Formation of Phosphorite

This paper reports on the biotechnical use of Thiomarigarita Namibiensis. The paper entails the ability of Thiomarigarita Namibiensis in releasing phosphorus in to its surrounding environment. Phosphorus is an essential nutrient which remains deposited in the marine sediments. The presence of Thiomarigarita Namibiensis in the marine waters of Namibian may account for abundance of apatite in that environment. Later studies showed that under laboratory experimentation in anoxic conditions, Thiomarigarita Namibiensis released large amounts of phosphate which can be correlated to the large amount of hydroxyapatite observed by the researchers in the sediments on the Namibian marine shelf.

References

2. http://www.accessexcellence.org/WN/SUA12/marg499.php

3. http://web.mst.edu/~microbio/BIO221_2005/T_namibiensis.htm

4. http://www.scienceagogo.com/news/19990318191806data_trunc_sys.shtml

5. http://www.whoi.edu/oceanus/viewImage.do?id=5667&aid=2497

6. http://www.madsci.org/posts/archives/2006-06/1151465295.Mi.r.html

7. http://en.wikipedia.org/wiki/Thiomargarita_namibiensis

  1. J. Travis (1999) Pearl-like bacteria are largest ever found, Science News 155 (16)