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Acquisition, co-option, and duplication of the rtx toxin system and the emergence of virulence in Kingella

Author

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  • Daniel P. Morreale

    (University of Pennsylvania
    Children’s Hospital of Philadelphia)

  • Eric A. Porsch

    (Children’s Hospital of Philadelphia)

  • Brad K. Kern

    (University of Pennsylvania
    Children’s Hospital of Philadelphia)

  • Joseph W. Geme

    (University of Pennsylvania
    Children’s Hospital of Philadelphia)

  • Paul J. Planet

    (University of Pennsylvania
    Children’s Hospital of Philadelphia
    American Museum of Natural History)

Abstract

The bacterial genus Kingella includes two pathogenic species, namely Kingella kingae and Kingella negevensis, as well as strictly commensal species. Both K. kingae and K. negevensis secrete a toxin called RtxA that is absent in the commensal species. Here we present a phylogenomic study of the genus Kingella, including new genomic sequences for 88 clinical isolates, genotyping of another 131 global isolates, and analysis of 52 available genomes. The phylogenetic evidence supports that the toxin-encoding operon rtxCA was acquired by a common ancestor of the pathogenic Kingella species, and that a preexisting type-I secretion system was co-opted for toxin export. Subsequent genomic reorganization distributed the toxin machinery across two loci, with 30-35% of K. kingae strains containing two copies of the rtxA toxin gene. The rtxA duplication is largely clonal and is associated with invasive disease. Assays with isogenic strains show that a single copy of rtxA is associated with reduced cytotoxicity in vitro. Thus, our study identifies key steps in the evolutionary transition from commensal to pathogen, including horizontal gene transfer, co-option of an existing secretion system, and gene duplication.

Suggested Citation

  • Daniel P. Morreale & Eric A. Porsch & Brad K. Kern & Joseph W. Geme & Paul J. Planet, 2023. "Acquisition, co-option, and duplication of the rtx toxin system and the emergence of virulence in Kingella," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39939-8
    DOI: 10.1038/s41467-023-39939-8
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    References listed on IDEAS

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    1. Chirag Jain & Luis M. Rodriguez-R & Adam M. Phillippy & Konstantinos T. Konstantinidis & Srinivas Aluru, 2018. "High throughput ANI analysis of 90K prokaryotic genomes reveals clear species boundaries," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
    2. Chao Jiang & Pamela J. B. Brown & Adrien Ducret & Yves V. Brun, 2014. "Sequential evolution of bacterial morphology by co-option of a developmental regulator," Nature, Nature, vol. 506(7489), pages 489-493, February.
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