Escherichia coli, a bacterium that causes severe foodborne diseases, is transmitted to humans primarily through the consumption of contaminated foods. These foodborne pathogens are causing a public health problem that requires alternative control approaches, such as bacteriophage (phage) biocontrol. In this study, we characterized vB_EcoM_Tw01 (vTw01) isolated from sewage and vB_EcoM_Tcm05 (vTcm05) isolated from chicken meat. Both vTw01 and vTcm05 were assigned to the family Myoviridae based on their morphology, with the former exhibiting a narrow host range with low minimum inhibitory multiplicity of infection (miMOI), and the latter exhibiting a broad host range with high miMOI. The latent periods of these phages were 20 and 30 min for vTw01 and vTcm05, while the burst sizes were ∼140 and ∼300 PFU/cell, respectively. They were relatively stable over a wide range of pH values and temperatures. The bioinformatics analysis of the genomic sequence suggests that vTw01 and vTcm05 have double-stranded DNA with genome sizes of 170,107 bp and 149,059 bp, respectively. Bacteriophage encoded enzymes, such as tail-lysozyme, spanin Rz, holin, cell wall hydrolase (CWH), and endolysin, were identified in the genome of both phages. In conclusion, this study investigated the morphological, physiological, and genomic features of two E. coli phages isolated from different sources. It was confirmed that these phages and their enzymes can serve as potential candidates for phage biocontrol.
Keywords: Chicken meat; Comparative genome; E. coli phage; Sewage.
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