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The chromosomal organization of horizontal gene transfer in bacteria

Author

Listed:
  • Pedro H. Oliveira

    (Institut Pasteur
    UMR3525)

  • Marie Touchon

    (Institut Pasteur
    UMR3525)

  • Jean Cury

    (Institut Pasteur
    UMR3525)

  • Eduardo P. C. Rocha

    (Institut Pasteur
    UMR3525)

Abstract

Bacterial adaptation is accelerated by the acquisition of novel traits through horizontal gene transfer, but the integration of these genes affects genome organization. We found that transferred genes are concentrated in only ~1% of the chromosomal regions (hotspots) in 80 bacterial species. This concentration increases with genome size and with the rate of transfer. Hotspots diversify by rapid gene turnover; their chromosomal distribution depends on local contexts (neighboring core genes), and content in mobile genetic elements. Hotspots concentrate most changes in gene repertoires, reduce the trade-off between genome diversification and organization, and should be treasure troves of strain-specific adaptive genes. Most mobile genetic elements and antibiotic resistance genes are in hotspots, but many hotspots lack recognizable mobile genetic elements and exhibit frequent homologous recombination at flanking core genes. Overrepresentation of hotspots with fewer mobile genetic elements in naturally transformable bacteria suggests that homologous recombination and horizontal gene transfer are tightly linked in genome evolution.

Suggested Citation

  • Pedro H. Oliveira & Marie Touchon & Jean Cury & Eduardo P. C. Rocha, 2017. "The chromosomal organization of horizontal gene transfer in bacteria," Nature Communications, Nature, vol. 8(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00808-w
    DOI: 10.1038/s41467-017-00808-w
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    Cited by:

    1. Guillaume Gautreau & Adelme Bazin & Mathieu Gachet & Rémi Planel & Laura Burlot & Mathieu Dubois & Amandine Perrin & Claudine Médigue & Alexandra Calteau & Stéphane Cruveiller & Catherine Matias & Chr, 2020. "PPanGGOLiN: Depicting microbial diversity via a partitioned pangenome graph," PLOS Computational Biology, Public Library of Science, vol. 16(3), pages 1-27, March.

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