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BMC microbiology
May 10, 2010;10 137.

Vibrio chromosomes share common history.

Benjamin C Kirkup, LeeAnn Chang, Sarah Chang, Dirk Gevers, Martin F Polz
Author Information
  1. Benjamin C Kirkup: Dept, of Civil and Environmental Engineering, 15 Vassar Street, Cambridge, MA 02139, USA. bckirkup@post.harvard.edu
PMID: 20459749 DOI: 10.1186/1471-2180-10-137

Abstract

BACKGROUND: While most gamma proteobacteria have a single circular chromosome, Vibrionales have two circular chromosomes. Horizontal gene transfer is common among Vibrios, and in light of this genetic mobility, it is an open question to what extent the two chromosomes themselves share a common history since their formation.
RESULTS: Single copy genes from each chromosome (142 genes from chromosome I and 42 genes from chromosome II) were identified from 19 sequenced Vibrionales genomes and their phylogenetic comparison suggests consistent phylogenies for each chromosome. Additionally, study of the gene organization and phylogeny of the respective origins of replication confirmed the shared history.
CONCLUSIONS: Thus, while elements within the chromosomes may have experienced significant genetic mobility, the backbones share a common history. This allows conclusions based on multilocus sequence analysis (MLSA) for one chromosome to be applied equally to both chromosomes.

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MeSH Term

Chromosomes
Cluster Analysis
Computational Biology
Evolution, Molecular
Gene Order
Genes, Bacterial
Phylogeny
Sequence Homology
Synteny
Vibrionaceae
Journal Article Research Support, Non-U.S. Gov't
Article has an altmetric score of 3

Word Cloud

Created with Highcharts 10.0.0chromosomechromosomescommonhistorysharegenescircularVibrionalestwogenegeneticmobilityBACKGROUND:gammaproteobacteriasingleHorizontaltransferamongVibrioslightopenquestionextentsinceformationRESULTS:Singlecopy14242IIidentified19sequencedgenomesphylogeneticcomparisonsuggestsconsistentphylogeniesAdditionallystudyorganizationphylogenyrespectiveoriginsreplicationconfirmedsharedCONCLUSIONS:ThuselementswithinmayexperiencedsignificantbackbonesallowsconclusionsbasedmultilocussequenceanalysisMLSAoneappliedequallyVibrio

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