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Rapid and Integrated Bacterial Evolution Analysis unveils gene mutations and clinical risk of Klebsiella pneumoniae

Author

Listed:
  • Kojiro Uemura

    (Sapporo Medical University School of Medicine
    Sapporo Medical University School of Medicine)

  • Toyotaka Sato

    (Sapporo Medical University School of Medicine
    Hokkaido University
    Hokkaido University
    Hokkaido University)

  • Soh Yamamoto

    (Sapporo Medical University School of Medicine)

  • Noriko Ogasawara

    (Sapporo Medical University School of Medicine
    Sapporo Medical University School of Medicine)

  • Jirachaya Toyting

    (Hokkaido University)

  • Kotaro Aoki

    (5-21-16 Omori-nishi)

  • Akira Takasawa

    (Asahikawa Medical University)

  • Masayuki Koyama

    (Sapporo Medical University School of Medicine)

  • Atsushi Saito

    (Sapporo Medical University School of Medicine)

  • Takayuki Wada

    (Sugimoto
    Abeno-ku)

  • Kaho Okada

    (Hokkaido University)

  • Yurie Yoshida

    (Sapporo Medical University School of Medicine)

  • Koji Kuronuma

    (Sapporo Medical University School of Medicine)

  • Chie Nakajima

    (N20
    International Institute for Zoonosis Control
    Institute for Vaccine Research and Development (HU-IVReD))

  • Yasuhiko Suzuki

    (N20
    International Institute for Zoonosis Control
    Institute for Vaccine Research and Development (HU-IVReD))

  • Motohiro Horiuchi

    (Hokkaido University
    Hokkaido University
    Hokkaido University)

  • Kenichi Takano

    (University)

  • Satoshi Takahashi

    (Sapporo Medical University School of Medicine
    Sapporo Medical University Hospital)

  • Hirofumi Chiba

    (Sapporo Medical University School of Medicine)

  • Shin-ichi Yokota

    (Sapporo Medical University School of Medicine)

Abstract

Bacteria continually evolve. Previous studies have evaluated bacterial evolution in retrospect, but this approach is based on only speculation. Cohort studies are reliable but require a long duration. Additionally, identifying which genetic mutations that have emerged during bacterial evolution possess functions of interest to researchers is an exceptionally challenging task. Here, we establish a Rapid and Integrated Bacterial Evolution Analysis (RIBEA) based on serial passaging experiments using hypermutable strains, whole-genome and transposon-directed sequencing, and in vivo evaluations to monitor bacterial evolution in a cohort for one month. RIBEA reveals bacterial factors contributing to serum and antimicrobial resistance by identifying gene mutations that occurred during evolution in the major respiratory pathogen Klebsiella pneumoniae. RIBEA also enables the evaluation of the risk for the progression and the development of invasive ability from the lung to blood and antimicrobial resistance. Our results demonstrate that RIBEA enables the observation of bacterial evolution and the prediction and identification of clinically relevant high-risk bacterial strains, clarifying the associated pathogenicity and the development of antimicrobial resistance at genetic mutation level.

Suggested Citation

  • Kojiro Uemura & Toyotaka Sato & Soh Yamamoto & Noriko Ogasawara & Jirachaya Toyting & Kotaro Aoki & Akira Takasawa & Masayuki Koyama & Atsushi Saito & Takayuki Wada & Kaho Okada & Yurie Yoshida & Koji, 2025. "Rapid and Integrated Bacterial Evolution Analysis unveils gene mutations and clinical risk of Klebsiella pneumoniae," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58049-1
    DOI: 10.1038/s41467-025-58049-1
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    References listed on IDEAS

    as
    1. Jeffrey E. Barrick & Dong Su Yu & Sung Ho Yoon & Haeyoung Jeong & Tae Kwang Oh & Dominique Schneider & Richard E. Lenski & Jihyun F. Kim, 2009. "Genome evolution and adaptation in a long-term experiment with Escherichia coli," Nature, Nature, vol. 461(7268), pages 1243-1247, October.
    2. Amandine Nucci & Eduardo P. C. Rocha & Olaya Rendueles, 2022. "Adaptation to novel spatially-structured environments is driven by the capsule and alters virulence-associated traits," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Shraddha Karve & Andreas Wagner, 2022. "Environmental complexity is more important than mutation in driving the evolution of latent novel traits in E. coli," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    4. Guoying Wang & Guo Zhao & Xiaoyu Chao & Longxiang Xie & Hongju Wang, 2020. "The Characteristic of Virulence, Biofilm and Antibiotic Resistance of Klebsiella pneumoniae," IJERPH, MDPI, vol. 17(17), pages 1-17, August.
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