Halobacterium volcanii: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Richard Ramdeo
imported>Richard Ramdeo
Line 17: Line 17:
Also known as ''[[Haloferax volcanii]]''
Also known as ''[[Haloferax volcanii]]''
   
   
==Description and Significance==
Haloferax volcanii is an archaeon that can survive in environments of extreme salt concentrations. Halobacteria are located throughout the world in salt ponds and lakes, and may exist in the form of dormant or living cells, biopolymers in rocks, salt crystals, or as evaporates in desert regions.<sup>7</sup> Haloferax volcanii in particular resides largely and predominantly in the bottom sediment of the Dead Sea, and are distinct from other organisms in their class in a few ways.<sup>2</sup>
H. volcanii are presumed to have been among the first living organisms on Earth when environmental conditions were much harsher than they are now. Though this is still highly debated, such a notion would correlate with the suggestion that H. volcanii may be present on and able to withstand the harsh conditions of Mars.<sup>7</sup> Along with their ability to withstand harsh conditions is H. volcanii’s extensive ability for DNA repair. H. volcanii are also the first kind of archaeon to show horizontal gene transfer involving phage-mediated transduction, assimilation of naked DNA and conjugation, demonstrating importance and implications of surface proteins.<sup>6</sup>


==Genome structure==
==Genome structure==

Revision as of 00:39, 22 April 2009

All unapproved Citizendium articles may contain errors of fact, bias, grammar etc. A version of an article is unapproved unless it is marked as citable with a dedicated green template at the top of the page, as in this version of the 'Biology' article. Citable articles are intended to be of reasonably high quality. The participants in the Citizendium project make no representations about the reliability of Citizendium articles or, generally, their suitability for any purpose.

Attention niels epting.png
Attention niels epting.png
This article is currently being developed as part of an Eduzendium student project in the framework of a course entitled Microbiology 201 at Queens College, CUNY. The course homepage can be found at CZ:Biol 201: General Microbiology.
For the course duration, the article is closed to outside editing. Of course you can always leave comments on the discussion page. The anticipated date of course completion is May 21, 2009. One month after that date at the latest, this notice shall be removed.
Besides, many other Citizendium articles welcome your collaboration!


Scientific classification

Also known as Haloferax volcanii


Description and Significance

Haloferax volcanii is an archaeon that can survive in environments of extreme salt concentrations. Halobacteria are located throughout the world in salt ponds and lakes, and may exist in the form of dormant or living cells, biopolymers in rocks, salt crystals, or as evaporates in desert regions.7 Haloferax volcanii in particular resides largely and predominantly in the bottom sediment of the Dead Sea, and are distinct from other organisms in their class in a few ways.2

H. volcanii are presumed to have been among the first living organisms on Earth when environmental conditions were much harsher than they are now. Though this is still highly debated, such a notion would correlate with the suggestion that H. volcanii may be present on and able to withstand the harsh conditions of Mars.7 Along with their ability to withstand harsh conditions is H. volcanii’s extensive ability for DNA repair. H. volcanii are also the first kind of archaeon to show horizontal gene transfer involving phage-mediated transduction, assimilation of naked DNA and conjugation, demonstrating importance and implications of surface proteins.6


Genome structure

Only one strain of Haloferax volcanii (Haloferax volcanii DS2) has a mapped genome. DS2 contains 4.01 million base pairs with approximately 4209 predicted genes. The most recent genome sequence draft was performed in April of 2007 by the Institute for Genomic Research. DS2 is found to have one chromosome and four plasmids. The chromosome has 2847757 base pairs and is 66.64% GC. Plasmid pHV4 has 635786 base pairs and is 61.67% GC. pHV 3 is 437906 base pairs and is 65.56% GC. pHV2 is 6359 base pairs and is 56.06% GC. Lastly, plasmid pHV1 is 85092 base pairs and is 55.5% GC.4

Cell structure and metabolism

Ecology

Pathology

Application to Biotechnology

Current Research

References