DNA sequence of both chromosomes of the cholera pathogen Vibrio cholerae

Here we determine the complete genomic sequence of the Gram negative, γ-Proteobacterium Vibrio cholerae El Tor N16961 to be 4,033,460 base pairs (bp). The genome consists of two circular chromosomes of 2,961,146 bp and 1,072,314 bp that together encode 3,885 open reading frames. The vast majority of...

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Bibliographic Details
Published in:Nature (London) 2000-08, Vol.406 (6795), p.477-483
Main Authors: Smith, Hamilton O, Peterson, Jeremy D, Nelson, Karen E, Gill, Steven R, Mekalanos, John J, Fleishmann, Robert D, McDonald, Lisa, Hickey, Erin K, Nierman, William C, Bass, Steven, Dragoi, Ioana, White, Owen, Tettelin, Hervé, Fraser, Claire M, Umayam, Lowell, Richardson, Delwood, Read, Timothy D, Ermolaeva, Maria D, Colwell, Rita R, Sellers, Patrick, Clayton, Rebecca A, Eisen, Jonathan A, Utterback, Teresa, Dodson, Robert J, Salzberg, Steven L, Venter, J. Craig, Gwinn, Michelle L, Haft, Daniel H, Vamathevan, Jessica, Qin, Haiying, Nelson, William C, Heidelberg, John F
Format: Article
Language:English
Subjects:
Bacteriology
Base Sequence
Biological and medical sciences
Biological Transport
Biosynthesis
Cholera
Cholera - microbiology
Chromosomes
Chromosomes, Bacterial
Deoxyribonucleic acid
DNA
DNA Repair
DNA, Bacterial
Energy Metabolism
Evolution, Molecular
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation, Bacterial
Genes
Genetics
Genome, Bacterial
Genomics
Humanities and Social Sciences
Humans
Microbiology
Molecular Sequence Data
multidisciplinary
Pathogens
Phylogeny
Science
Sequence Analysis, DNA
Toxins
Vibrio cholerae
Vibrio cholerae - classification
Vibrio cholerae - genetics
Vibrio cholerae - pathogenicity
Waterborne diseases
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Summary:Here we determine the complete genomic sequence of the Gram negative, γ-Proteobacterium Vibrio cholerae El Tor N16961 to be 4,033,460 base pairs (bp). The genome consists of two circular chromosomes of 2,961,146 bp and 1,072,314 bp that together encode 3,885 open reading frames. The vast majority of recognizable genes for essential cell functions (such as DNA replication, transcription, translation and cell-wall biosynthesis) and pathogenicity (for example, toxins, surface antigens and adhesins) are located on the large chromosome. In contrast, the small chromosome contains a larger fraction (59%) of hypothetical genes compared with the large chromosome (42%), and also contains many more genes that appear to have origins other than the γ-Proteobacteria. The small chromosome also carries a gene capture system (the integron island) and host ‘addiction’ genes that are typically found on plasmids; thus, the small chromosome may have originally been a megaplasmid that was captured by an ancestral Vibrio species. The V. cholerae genomic sequence provides a starting point for understanding how a free-living, environmental organism emerged to become a significant human bacterial pathogen.
ISSN:0028-0836
1476-4687
DOI:10.1038/35020000