Isolation and characterization of novel filamentous phages from Swiss-type cheeses infecting the Gram-positive bacterium Propionibacterium freudenreichii
Isolation and characterization of novel filamentous phages from Swiss-type cheeses infecting the Gram-positive bacterium Propionibacterium freudenreichii
Grosset, N.; Nicolas, A.; Jardin, J.; Oechslin, F.; Culot, A.; Moineau, S.; Gautier, M.; GUEDON, E.
AbstractFilamentous phages infecting Gram-positive bacteria remain largely unexplored. Notably, only two filamentous phages, B5 and Philemon infecting Propionibacterium freudenreichii, have been described to date in the phage-rich dairy ecosystem. Although both were genomically characterized, only B5 was confirmed to be an infective filamentous single-stranded DNA phage. The aim of this study was to isolate and characterize new filamentous phages from Swiss-type cheese to investigate their diversity, structural features, host specificity, and potential adaptation to the dairy environment. Thirty raw and pasteurized milk cheeses from France were screened for phages infecting P. freudenreichii strains. Eleven phages were isolated, nine of which displayed a filamentous morphology. Named MINOG1 to MINOG9, these filamentous phages exhibited genomic features typical of this morphotype, including small single-stranded DNA genomes with collinear genes organized into functional modules. Comparison with B5 and Philemon revealed sequence divergence ranging from 0.1% to 7%. These phages also exhibited a diverse host range. To further explore phage-P. freudenreichii interactions, we screened the genomes of the strains used in this study, as well as additional genomes retrieved from the NCBI database, for CRISPR spacers predicted to target these filamentous phages. Numerous strains contained CRISPR spacers showing 79 to 100% identity to genomic regions of these phages. Two P. freudenreichii strains displayed markedly different phage resistance levels despite exact spacer-protospacer matches with phages B5, MINOG1, MINOG2, and MINOG8. Conversely, several strains were resistant to nearly all tested phages despite lacking CRISPR spacers targeting them suggesting the presence of additional defense systems in P. freudenreichii.