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Distributed genotyping and clustering of Neisseria strains reveal continual emergence of epidemic meningococcus over a century

Author

Listed:
  • Ling Zhong

    (Soochow University
    Soochow University)

  • Menghan Zhang

    (Suzhou Center for Disease Control and Prevention)

  • Libing Sun

    (East District of Suzhou Municipal Hospital)

  • Yu Yang

    (Soochow University)

  • Bo Wang

    (Suzhou Center for Disease Control and Prevention)

  • Haibing Yang

    (Suzhou Center for Disease Control and Prevention)

  • Qiang Shen

    (Suzhou Center for Disease Control and Prevention)

  • Yu Xia

    (Suzhou Center for Disease Control and Prevention)

  • Jiarui Cui

    (Suzhou Center for Disease Control and Prevention)

  • Hui Hang

    (Suzhou Center for Disease Control and Prevention)

  • Yi Ren

    (Iotabiome Biotechnology Inc)

  • Bo Pang

    (Chinese Center for Disease Control and Prevention)

  • Xiangyu Deng

    (University of Georgia)

  • Yahui Zhan

    (Suzhou Center for Disease Control and Prevention)

  • Heng Li

    (Soochow University
    Soochow University
    Soochow University)

  • Zhemin Zhou

    (Soochow University
    Soochow University
    Chinese Center for Disease Control and Prevention)

Abstract

Core genome multilocus sequence typing (cgMLST) is commonly used to classify bacterial strains into different types, for taxonomical and epidemiological applications. However, cgMLST schemes require central databases for the nomenclature of new alleles and sequence types, which must be synchronized worldwide and involve increasingly intensive calculation and storage demands. Here, we describe a distributed cgMLST (dcgMLST) scheme that does not require a central database of allelic sequences and apply it to study evolutionary patterns of epidemic and endemic strains of the genus Neisseria. We classify 69,994 worldwide Neisseria strains into multi-level clusters that assign species, lineages, and local disease outbreaks. We divide Neisseria meningitidis into 168 endemic lineages and three epidemic lineages responsible for at least 9 epidemics in the past century. According to our analyses, the epidemic and endemic lineages experienced very different population dynamics in the past 100 years. Epidemic lineages repetitively emerged from endemic lineages, disseminated worldwide, and apparently disappeared rapidly afterward. We propose a stepwise model for the evolutionary trajectory of epidemic lineages in Neisseria, and expect that the development of similar dcgMLST schemes will facilitate epidemiological studies of other bacterial pathogens.

Suggested Citation

  • Ling Zhong & Menghan Zhang & Libing Sun & Yu Yang & Bo Wang & Haibing Yang & Qiang Shen & Yu Xia & Jiarui Cui & Hui Hang & Yi Ren & Bo Pang & Xiangyu Deng & Yahui Zhan & Heng Li & Zhemin Zhou, 2023. "Distributed genotyping and clustering of Neisseria strains reveal continual emergence of epidemic meningococcus over a century," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43528-0
    DOI: 10.1038/s41467-023-43528-0
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    References listed on IDEAS

    as
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