2022
DOI: 10.1016/j.cell.2022.07.014
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Bacteriophages benefit from mobilizing pathogenicity islands encoding immune systems against competitors

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Cited by 64 publications
(58 citation statements)
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References 71 publications
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“…They also often associate with WYL-domain containing proteins, transcriptional regulators that are enriched in phage defense islands (3,30,31). Furthermore, the genome neighborhood also encodes several viral proteins and integrases, in agreement with recent reports that mobile genetic elements (MGE) represent primary carriers of defense islands (14,26,32). These findings further support the involvement of the Shield systems in bacterial immunity.…”
Section: Shieldsupporting
confidence: 86%
See 1 more Smart Citation
“…They also often associate with WYL-domain containing proteins, transcriptional regulators that are enriched in phage defense islands (3,30,31). Furthermore, the genome neighborhood also encodes several viral proteins and integrases, in agreement with recent reports that mobile genetic elements (MGE) represent primary carriers of defense islands (14,26,32). These findings further support the involvement of the Shield systems in bacterial immunity.…”
Section: Shieldsupporting
confidence: 86%
“…Previous studies have demonstrated that bacterial defense systems cluster together in chromosomal hotspots, defined as ‘defense islands’ and that their mobilisation is dependent on mobile genetic elements (4, 25, 26). Genetic neighborhood analysis of known anti-phage systems has allowed the systematic discovery of many novel defense systems (10, 11, 13, 14).…”
Section: Resultsmentioning
confidence: 99%
“…The current explosion anti-phage immune systems discovered in bacterial genomes has prompted the analysis their genomic positioning. Fascinating examples of MGE transferred hotspots of anti-phage immunity have been documented that control ecological outcomes during phage-host interactions in Vibrio and E. coli, for example (7)(8)(9)(29)(30)(31). In contrast to these phage defense MGEs, however, here we show that core defense hotspots (cDHS) with conserved genomic markers flanking immunity regions can be predictive of an immune locus.…”
Section: Discussioncontrasting
confidence: 49%
“…The Psu-Delta-Sid operon of P4-like phage satellites performs a unique and conserved helper subversion strategy; the capsid assembly and head-tail adaptor genes of cfPICI means that this is the only satellite known so far that hijacks only part of the helpers’ virions; and PLEs have evolved genetic machinery to not only subvert a specific incoming virulent phage, but also to kill its bacterial host upon excision. Interestingly, this strategy might also be used by some PICI, that were recently described to encode an abortive infection system (10), and P4-like satellites can also encode (less drastic) anti-phage defense systems (e.g. retrons) (9).…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, individual bacterial genomes often carry satellites of different families, suggesting that competitive or antagonistic interactions between phage satellites of different families may occur. Together with the ubiquity of prophages, and the oft-present anti-phage defense systems in phage satellites (6, 9, 10), this highlights the complex networks that dictate the emergence and maintenance of these phage satellites and phages, as well as the fitness and survival of their bacterial hosts. Our results reinforce the idea that phage satellites play an important role in the microbial world.…”
Section: Discussionmentioning
confidence: 99%