The Salinibacter ruber DSM 13855 genome is 3.59 Million bp long and contains approximately 2898 predicted genes.

The sequence was released 12/20/2005 by the TIGR, and was described in Proc Natl Acad Sci U S A 102:18147-52 (2005) Mongodin EF, Nelson KE, Daugherty S, Deboy RT, Wister J, et al.  "The genome of Salinibacter ruber: convergence and gene exchange among hyperhalophilic bacteria and archaea. "
Abstract: Saturated thalassic brines are among the most physically demanding habitats on Earth: few microbes survive in them. Salinibacter ruber is among these organisms and has been found repeatedly in significant numbers in climax saltern crystallizer communities. The phenotype of this bacterium is remarkably similar to that of the hyperhalophilic Archaea (Haloarchaea). The genome sequence suggests that this resemblance has arisen through convergence at the physiological level (different genes producing similar overall phenotype) and the molecular level (independent mutations yielding similar sequences or structures). Several genes and gene clusters also derive by lateral transfer from (or may have been laterally transferred to) haloarchaea. S. ruber encodes four rhodopsins. One resembles bacteria... [Click above reference link for full abstract]

Sample position queries

A genome position can be specified by chromosomal coordinate range, COG ID, or keywords from the GenBank or TIGR description of a gene. The available chromosome/plasmid names are:

Browser Chrom/Plasmid NameLength (bp)GC Content (%)Gene CountNCBI RefSeq Accession
chr355182366.222865NC_007677
plasmid_pSR353550557.9433NC_007678

The following list shows examples of valid position queries for this genome: 

Request:Genome Browser Response:
chrDisplays the entire sequence "chr" in the browser window
chr:1-10000    Displays first ten thousand bases of the sequence "chr"
transporter    Lists all genes with "transporter" in the name or description
SRU_0010Display genome at position of gene SRU_0010


Credits

The Archaeal Genome Browsers at UCSC were developed by members of the Lowe Lab (Kevin Schneider, Katherine Pollard, Andy Pohl, Todd Lowe) and Robert Baertsch, with significant support from the UCSC Human Genome Browser group. The Archaeal Browsers are run by a slightly modified version of the UCSC Human Genome Browser system. All queries, bug reports, content corrections, suggested improvements, and new track data submissions should be sent to Todd Lowe (lowe @soe.ucsc.edu).

If you use the browser in your published research, please cite our publication in the Nucleic Acids Research Database Issue. Citations and positive feedback will help us obtain funding to continue development of this community resource.