Abstract
Salmonella is a widely distributed foodborne pathogen. The use of Salmonella phages as biocontrol agents has recently gained significant interest. Because the Salmonella genus has high diversity, efforts are necessary to identify lytic Salmonella phages focusing on different serovars. Here, five Salmonella phages were isolated from soil samples, and vB_SalP_TR2 was selected as a novel phage with high lytic potential against the host Salmonella serovar Albany, as well as other tested serovars, including Corvallis, Newport, Kottbus, and Istanbul. Morphological analyses demonstrated that phage vB_SalP_TR2 belongs to the Podoviridae family, with an icosahedral head (62 ± 0.5 nm in diameter and 60 ± 1 nm in length) and a short tail (35 ± 1 nm in length). The latent period and burst size of phage vB_SalP_TR2 was 15 min and 211 PFU/cell, respectively. It contained a linear dsDNA of 71,453 bp, and G + C content was 40.64%. Among 96 putative open reading frames detected, only 35 gene products were found in database searches, with no virulence or antibiotic resistance genes being identified. As a biological control agent, phage vB_SalP_TR2 exhibited a high temperature and pH tolerance. In vitro, it lysed most S. Albany after 24 h at 37°C with multiplicities of infection of 0.0001, 0.001, 0.01, 0.1, 1, 10, and 100. In food matrices (milk and chicken meat), treatment with phage vB_SalP_TR2 also reduced the number of S. Albany compared with that in controls. These findings highlighted phage vB_SalP_TR2 as a potential antibacterial agent for the control of Salmonella in food samples.
Highlights
Salmonella is one of the major foodborne pathogens that affect global food producers and public health systems (Besser, 2018)
It has been postulated that due to their defense mechanisms and the high diversity of Salmonella, phages isolated from one country might not have the ability to lyse bacteria in other regions (Hagens and Loessner, 2009); continuously providing new phages that focus on different serovars and possess a high lytic capacity is required for practical application
A total of five Salmonella phages were isolated from soil samples in this study
Summary
Salmonella is one of the major foodborne pathogens that affect global food producers and public health systems (Besser, 2018). The whole-genome sequencing was completed in 2000, and the somatic receptor for this phage is lipopolysaccharide (Whichard et al, 2010) It has been proposed as a therapeutic or decontaminating agent (Whichard et al, 2003; Radford et al, 2017). The host range for the vast majority of Salmonella phages has been reported to include S. enteritidis or S. typhimurium (Majtanova et al, 2011; Petsong et al, 2019). It has been postulated that due to their defense mechanisms and the high diversity of Salmonella, phages isolated from one country might not have the ability to lyse bacteria in other regions (Hagens and Loessner, 2009); continuously providing new phages that focus on different serovars and possess a high lytic capacity is required for practical application
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