Emerging Infectious Diseases (Jan 2019)

Zoonotic Source Attribution of Salmonella enterica Serotype Typhimurium Using Genomic Surveillance Data, United States

  • Shaokang Zhang,
  • Shaoting Li,
  • Weidong Gu,
  • Henk den Bakker,
  • Dave Boxrud,
  • Angie Taylor,
  • Chandler Roe,
  • Elizabeth Driebe,
  • David M. Engelthaler,
  • Marc Allard,
  • Eric Brown,
  • Patrick McDermott,
  • Shaohua Zhao,
  • Beau B. Bruce,
  • Eija Trees,
  • Patricia I. Fields,
  • Xiangyu Deng

DOI
https://doi.org/10.3201/eid2501.180835
Journal volume & issue
Vol. 25, no. 1
pp. 82 – 91

Abstract

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Increasingly, routine surveillance and monitoring of foodborne pathogens using whole-genome sequencing is creating opportunities to study foodborne illness epidemiology beyond routine outbreak investigations and case–control studies. Using a global phylogeny of Salmonella enterica serotype Typhimurium, we found that major livestock sources of the pathogen in the United States can be predicted through whole-genome sequencing data. Relatively steady rates of sequence divergence in livestock lineages enabled the inference of their recent origins. Elevated accumulation of lineage-specific pseudogenes after divergence from generalist populations and possible metabolic acclimation in a representative swine isolate indicates possible emergence of host adaptation. We developed and retrospectively applied a machine learning Random Forest classifier for genomic source prediction of Salmonella Typhimurium that correctly attributed 7 of 8 major zoonotic outbreaks in the United States during 1998–2013. We further identified 50 key genetic features that were sufficient for robust livestock source prediction.

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