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Diversification of bacterial genome content through distinct mechanisms over different timescales

Author

Listed:
  • Nicholas J. Croucher

    (Centre for Communicable Disease Dynamics, Harvard School of Public Health
    St. Mary’s Campus, Imperial College)

  • Paul G. Coupland

    (The Wellcome Trust Sanger Institute, Wellcome Trust Genome Campus)

  • Abbie E. Stevenson

    (Centre for Communicable Disease Dynamics, Harvard School of Public Health)

  • Alanna Callendrello

    (Centre for Communicable Disease Dynamics, Harvard School of Public Health)

  • Stephen D. Bentley

    (The Wellcome Trust Sanger Institute, Wellcome Trust Genome Campus)

  • William P. Hanage

    (Centre for Communicable Disease Dynamics, Harvard School of Public Health)

Abstract

Bacterial populations often consist of multiple co-circulating lineages. Determining how such population structures arise requires understanding what drives bacterial diversification. Using 616 systematically sampled genomes, we show that Streptococcus pneumoniae lineages are typically characterized by combinations of infrequently transferred stable genomic islands: those moving primarily through transformation, along with integrative and conjugative elements and phage-related chromosomal islands. The only lineage containing extensive unique sequence corresponds to a set of atypical unencapsulated isolates that may represent a distinct species. However, prophage content is highly variable even within lineages, suggesting frequent horizontal transmission that would necessitate rapidly diversifying anti-phage mechanisms to prevent these viruses sweeping through populations. Correspondingly, two loci encoding Type I restriction-modification systems able to change their specificity over short timescales through intragenomic recombination are ubiquitous across the collection. Hence short-term pneumococcal variation is characterized by movement of phage and intragenomic rearrangements, with the slower transfer of stable loci distinguishing lineages.

Suggested Citation

  • Nicholas J. Croucher & Paul G. Coupland & Abbie E. Stevenson & Alanna Callendrello & Stephen D. Bentley & William P. Hanage, 2014. "Diversification of bacterial genome content through distinct mechanisms over different timescales," Nature Communications, Nature, vol. 5(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6471
    DOI: 10.1038/ncomms6471
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    Cited by:

    1. Uri Obolski & Todd D. Swarthout & Akuzike Kalizang’oma & Thandie S. Mwalukomo & Jia Mun Chan & Caroline M. Weight & Comfort Brown & Rory Cave & Jen Cornick & Arox Wadson Kamng’ona & Jacquline Msefula , 2023. "The metabolic, virulence and antimicrobial resistance profiles of colonising Streptococcus pneumoniae shift after PCV13 introduction in urban Malawi," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    2. Pekka Marttinen & William P Hanage, 2017. "Speciation trajectories in recombining bacterial species," PLOS Computational Biology, Public Library of Science, vol. 13(7), pages 1-15, July.
    3. Nicholas J Croucher & Lisa Kagedan & Claudette M Thompson & Julian Parkhill & Stephen D Bentley & Jonathan A Finkelstein & Marc Lipsitch & William P Hanage, 2015. "Selective and Genetic Constraints on Pneumococcal Serotype Switching," PLOS Genetics, Public Library of Science, vol. 11(3), pages 1-21, March.

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