Biological and genomic characterization of three psychrophilic Y. enterocolitica phages
Jens A. Hammerl, Minh Anh Pham, Shirin El-Ahmad, Diana Manta, Claudia Jäckel, Stefan Hertwig

TL;DR
This study characterizes three cold-active phages that can kill Y. enterocolitica, a foodborne pathogen, at low temperatures, making them useful for food safety.
Contribution
The discovery and characterization of three novel psychrophilic phages effective against Y. enterocolitica at low temperatures.
Findings
The phage cocktail reduced Y. enterocolitica by up to 4.8 log10 units at room temperature within hours.
The cocktail showed strong activity at 6°C, reducing the pathogen by 4.0 log10 units overnight.
Resistant isolates remained susceptible to at least one phage in the cocktail.
Abstract
Yersinia (Y.) enterocolitica is an important foodborne pathogenic species that is mainly transmitted by the consumption of contaminated meat, particularly pork. To combat the bacteria along the food chain, the application of strictly lytic phages may be a promising tool. As the temperatures in the gut of animals and during food processing can differ significantly, a phage cocktail intended to be used for applications should comprise phages that are active at various temperatures. In this study, we isolated and characterized three phages with a myoviridal morphology (vB_YenM_P8, vB_YenM_P744 and vB_YenM_P778), which lysed the most important Y. enterocolitica serotypes O:3, O:9 and O:5,27 at a low multiplicity of infection (MOI) and at low temperatures down to 6°C. While vB_YenM_P8 is a member of the T4 family, vB_YenM_P744 and vB_YenM_P778 are novel phages that do not show relationship…
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Taxonomy
TopicsYersinia bacterium, plague, ectoparasites research · Bacteriophages and microbial interactions · Vector-borne infectious diseases
