Owing to the threats that Salmonella poses to public health and the abuse of antimicrobials, bacteriophage therapy against Salmonella is experiencing a resurgence. Although several phages have been reported as safe and efficient for controlling Salmonella, the genetic diversity and relatedness among Salmonella phages remain poorly understood. In this study, whole-genome sequences of 91 Salmonella bacteriophages were obtained from the National Center for Biological Information genome database. Phylogenetic analysis, mosaic structure comparisons, gene content analysis, and orthologue group clustering were performed. Phylogenetic analysis revealed four singletons and two major lineages (I-II), including five subdividing clades, of which Salmonella phages belonging to morphologically distinct families were clustered in the same clade. Chimeric structures (n = 31), holin genes (n = 18), lysin genes (n = 66), DNA packaging genes (n = 55), and DNA metabolism genes (n = 24) were present in these phages. Moreover, phages from different subdivided clusters harboured distinct genes associated with host cell lysis, DNA packaging, and DNA metabolism. Notably, phages belonging to morphologically distinct families shared common orthologue groups. Although several functional modules of phages SS1 and SE16 shared > 99% nucleotide sequence identity with phages SI2 and SI23, the major differences between these phages were the absence and replication of functional modules. The data obtained herein revealed the genetic diversity of Salmonella phages at genomic, structural, and gene content levels. The genetic diversity of Salmonella phages is likely owing to the acquisition, loss, and replication of functional modules.
Keywords: Bacteriophages; Diversity; Evolution; Genomic; Salmonella.
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