Annotation Tools
Blast GBrowse Short Sequence Search Precomputed Blast Results Download Files
   

Blast

Find regions of local similarity with Roseobacter sequences.

GBrowse

Access a web-based browser of Roseobacter genomes.

Short Sequence Search

Find short sequences in genes or intergenic regions in Roseobacter genomes.

Precomputed Blast Results

Search a database of pre-computed genome BLAST results.

Download Files

Download Roseobacter genomes and a Java-based genome browser.

 

 
UGA-Marine Sciences    Gordon and Betty Moore Foundation   National Science Foundation
 

Roseovarius sp. 217

Ecology and Physiology

Roseovarius sp. 217 was isolated from a methyl halide oxidizing enrichment culture from surface seawater collected near Plymouth, England. This bacterium and its relatives potentially play a role in controlling fluxes of methyl halides between the ocean and the atmosphere, and the cycling of methyl halides on a global scale.

For NCBI Genome Page, click here.

Moore Foundation

 
General features of the Roseovarius sp. 217
Feature
Total number of coding sequiences 4,772
G + C content (%) 60.0
Est. Genome size (bp) 4,762,632
% Coding 89.0
Sequence status Draft

Roseobacter Genomes

Dinoroseobacter shibae DFL 12 Roseobacter sp. AzwK-3b Roseovarius nubinhibens ISM
Jannaschia sp. CCS1 Roseobacter denitrificans OCh 114 Roseovarius TM1035
Loktanella vestfoldensis SKA53 Roseobacter sp. CCS2 Sagittula stellata E-37
Oceanicola batsensis HTCC2597 Roseobacter sp. MED193 Silicibacter pomeroyi DSS-3
Oceanicola granulosus HTCC2516 Roseobacter RCA clade HTCC2150 Silicibacter sp. TM1040
Rhodobacterales bacterium HTCC2255 Roseobacter SK209-2-6 Sulfitobacter sp. EE-36
Rhodobacterales bacterium HTCC2654 Roseovarius sp. 217 Sulfitobacter NAS-14.1
  Roseovarius sp. HTCC2601  
 

Shulei Sun
Scientific Computing Professional Associate  [shulei@uga.edu]

Dr. Mary Ann Moran
Research Professor Department of Marine Sciences  [mmoran@uga.edu]

University of Georgia
Department of Marine Sciences
Contact Us

  
 
 

This material is based upon work supported by the National Science Foundation under Grant No. 0315200.

Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s)
and do not necessarily reflect the views of the National Science Foundation.