| URL: | http://bioinformatics.sandia.gov/islander/ |
| Full name: | Database of Genomic Islands |
| Description: | Genomic islands are mobile DNAs found in bacterial and archaeal chromosomes. They are major agents of prokaryotic evolution because they can carry genes that contribute to pathogenicity, metabolism, etc. This site focuses on what we consider canonical genomic islands: those found 1) integrated into tRNA or tmRNA genes, 2) with both attachment sites present, and 3) encoding an integrase of the tyrosine recombinase family. |
| Year founded: | 2015 |
| Last update: | 2017-11-05 |
| Version: | v1.0 |
| Accessibility: |
Accessible
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| Country/Region: | United States |
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| University/Institution: | Sandia National Laboratories |
| Address: | Sandia National Laboratories,Department of Systems Biology,Livermore,CA 94550,USA |
| City: | Livermore |
| Province/State: | CA |
| Country/Region: | United States |
| Contact name (PI/Team): | Kelly P. Williams |
| Contact email (PI/Helpdesk): | kpwilli@sandia.gov |
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Islander: a database of precisely mapped genomic islands in tRNA and tmRNA genes. [PMID: 25378302]
Genomic islands are mobile DNAs that are major agents of bacterial and archaeal evolution. Integration into prokaryotic chromosomes usually occurs site-specifically at tRNA or tmRNA gene (together, tDNA) targets, catalyzed by tyrosine integrases. This splits the target gene, yet sequences within the island restore the disrupted gene; the regenerated target and its displaced fragment precisely mark the endpoints of the island. We applied this principle to search for islands in genomic DNA sequences. Our algorithm identifies tDNAs, finds fragments of those tDNAs in the same replicon and removes unlikely candidate islands through a series of filters. A search for islands in 2168 whole prokaryotic genomes produced 3919 candidates. The website Islander (recently moved to http://bioinformatics.sandia.gov/islander/) presents these precisely mapped candidate islands, the gene content and the island sequence. The algorithm further insists that each island encode an integrase, and attachment site sequence identity is carefully noted; therefore, the database also serves in the study of integrase site-specificity and its evolution. © The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research. |