The Vibrio fischeri ES114 genome is 4.28 Million bp long and contains approximately 3957 predicted genes.

The sequence was released 02/11/2005 by the Integrated Genomics, and was described in Proc Natl Acad Sci U S A 102:3004-9 (2005) Ruby EG, Urbanowski M, Campbell J, Dunn A, Faini M, et al.  "Complete genome sequence of Vibrio fischeri: a symbiotic bacterium with pathogenic congeners. "
Abstract: Vibrio fischeri belongs to the Vibrionaceae, a large family of marine gamma-proteobacteria that includes several dozen species known to engage in a diversity of beneficial or pathogenic interactions with animal tissue. Among the small number of pathogenic Vibrio species that cause human diseases are Vibrio cholerae, Vibrio parahaemolyticus, and Vibrio vulnificus, the only members of the Vibrionaceae that have had their genome sequences reported. Nonpathogenic members of the genus Vibrio, including a number of beneficial symbionts, make up the majority of the Vibrionaceae, but none of these species has been similarly examined. Here we report the genome sequence of V. fischeri ES114, which enters into a mutualistic symbiosis in the light organ of the bobtail squid, Euprymna scolopes. Analysi... [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
chrI290617938.962716NC_006840
chrII133202237.021186NC_006841
plasmid_pES1004584938.4255NC_006842

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

Request:Genome Browser Response:
chrIDisplays the entire sequence "chrI" in the browser window
chrI:1-10000    Displays first ten thousand bases of the sequence "chrI"
transporter    Lists all genes with "transporter" in the name or description
VF0010Display genome at position of gene VF0010


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.