ssDNA phage FLiP resides in dsDNA form in resistant Flavobacterium host

Most of the environmental flavobacteria decompose organic matter, playing a crucial role in ecosystem balance. Phages infecting these bacteria regulate the host populations and thereby the ecosystem functions, however, bacterial resistance against phage may cause changes in bacterial phenotypic characteristics. ssDNA phage Finnlakevirus FLiP infects three known environmental Flavobacterium sp. isolates: B330, B167, and B114. Building on our previous FLiP-host interaction studies, we aimed to broaden our understanding of the host perspective by exploring phage resistance mechanisms against FLiP and similar phages. We compared growth dynamics of ancestral and resistant variants to detect the effect of resistance on host fitness. Genomic comparison between the variants was used to identify resistance-related mutations. Additionally, we analysed genomic differences among the three host strains, screening for anti-phage systems. Sequence analyses, PCR, and nuclease treatments of resistant host genomes and plasmids were used to assess the possibility of lysogeny and superinfection immunity. No single mutation or anti-phage system consistently explained FLiP resistance, as these varied across hosts. Resistant B114 contained FLiP genome in circular extrachromosomal dsDNA form, suggesting possible lysogeny. Surprisingly, we found that low quantities of FLiP sequences exist in bacterial populations not exposed to FLiP in the laboratory. This suggests that residing as extrachromosomal dsDNA elements in a small percentage of host cells may be a natural strategy for FLiP type phages to endure unfavourable conditions.