Abstract

Significance Common features have been observed in the genome sequences of bacterial pathogens that infect few hosts. These “host adaptations” include the acquisition of pathogenicity islands of multiple genes involved in disease, losses of whole genes, and even single mutations that affect gene function. Within Salmonella enterica is a natural model system of four pathogens that are each other’s closest relatives, including a host-generalist, two host-specialists, and one with strong host associations. With whole-genome sequences, we aimed to improve our understanding of the number, nature, and order of these host adaptation events, shedding light on how human and animal pathogens arose in the past, and potentially allowing us to predict how emerging pathogens will evolve in the future.