Yersinia enterocolitica is a gram-negative, non-spore-forming, coccobacilli, psychrotrophic, and facultative anaerobe, which is one of three Yersinia species that are pathogenic to humans, along with Y. pestis, and Y. pseudotuberculosis [1, 2]. The most predominant natural hosts for Y. enterocolitica are animals (especially pigs). Y. enterocolitica also exists ubiquitously in water, soil, plant surfaces, and foods [3]. Although animals are the major source of Y. enterocolitica, many cases have recently been reported in which outbreaks of Y. enterocolitica were associated with fresh produce such as salad, bean sprouts and leafy vegetables [4, 5]. Yersinia infection, commonly known as yersiniosis, begins with some common symptoms such as fever, diarrhea (often bloody), and abdominal pain, which is sometimes confused with appendicitis. It is also associated with some severe complications such as skin rash, meningitis, mesenteric lymphadenitis, and sepsis [2, 3]. A European Union Summary Report [6] classified yersiniosis as the third most common zoonosis in Europe [4]. Moreover, recent findings revealed that Yersinia species had developed resistance against penicillin, ampicillin, cephalosporin, and macrolides due to the production of beta-lactamases [7]. Thus, a safe, ecofriendly and effective "green" approach is required to control Y. enterocolitica to ensure food safety and public health [8]. Bacteriophages (phages) are the most abundant entities (10 3 1-10 3 2) in nature and have recently gathered more attention as green biocontrol agents owing to several advantages, including excellent target specificity, the ability to multiply in the presence of hosts, preparation and cost efficiencies, stability in wide-ranging pH levels and temperatures, and harmlessness to humans, animals, and plants [9-11]. The necessity of novel biocontrol agents has prompted us to isolate numerous phages (mainly lytic phages) from various environments and foods [12]. Unlike lysogenic phages, the lytic phage can lyse the target bacteria by integrating their DNA into the bacterial chromosome and then replicating themselves inside the host, a trait that is preferred for their use as biocontrol agents [2, 13, 14].
