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Agricultural intensification and the evolution of host specialism in the enteric pathogen Campylobacter jejuni

Q Science 0301 basic medicine adaptation Biologiska vetenskaper Wellcome Trust Homologous Recombination BB/I02464X/1 2. Zero hunger Recombination, Genetic Bioinformatics (Computational Biology) Q 600 Agriculture Genomics Biological Sciences Adaptation, Physiological Phenotype 088786/C/09/Z Hydrophobic and Hydrophilic Interactions Specialization 330 Gene Transfer, Horizontal Evolution 610 Microbiology Host Specificity Campylobacter jejuni Evolution, Molecular 03 medical and health sciences SDG 3 - Good Health and Well-being evolution genomics Animals Adaptation General MR/L015080/1 Campylobacter 15. Life on land Recombination Medical Research Council (MRC) recombination Diet Mikrobiologi 13. Climate action Mutagenesis Biofilms Biotechnology and Biological Sciences Research Council (BBSRC) Bioinformatik (beräkningsbiologi) BB/R003491/1 Cattle Adaption
DOI: 10.1073/pnas.1917168117 Publication Date: 2020-05-05T00:24:54Z
Abstract Supplemental Material References Cited by
AUTHORS (19)
Evangelos Mourkas
Aidan J. Taylor
Guillaume Méric
Sion C. Bayliss
Ben Pascoe
Leonardos Mageiros
Jessica K. Calland
Matthew D. Hitchings
Anne Ridley
Ana Vidal
Ken J. Forbes
Norval J. C. Stra...
Craig T. Parker
Julian Parkhill
Keith A. Jolley
Alison J. Cody
Martin C. J. Maiden
David J. Kelly
Samuel K. Sheppard
ABSTRACT
Modern agriculture has dramatically changed the distribution of animal species on Earth. Changes to host ecology have a major impact on the microbiota, potentially increasing the risk of zoonotic pathogens being transmitted to humans, but the impact of intensive livestock production on host-associated bacteria has rarely been studied. Here, we use large isolate collections and comparative genomics techniques, linked to phenotype studies, to understand the timescale and genomic adaptations associated with the proliferation of the most common food-born bacterial pathogen ( Campylobacter jejuni ) in the most prolific agricultural mammal (cattle). Our findings reveal the emergence of cattle specialist C. jejuni lineages from a background of host generalist strains that coincided with the dramatic rise in cattle numbers in the 20th century. Cattle adaptation was associated with horizontal gene transfer and significant gene gain and loss. This may be related to differences in host diet, anatomy, and physiology, leading to the proliferation of globally disseminated cattle specialists of major public health importance. This work highlights how genomic plasticity can allow important zoonotic pathogens to exploit altered niches in the face of anthropogenic change and provides information for mitigating some of the risks posed by modern agricultural systems.
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