Publikation:

Temperate phages as self-replicating weapons in bacterial competition

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2017

Autor:innen

Lachnit, Tim
Fraune, Sebastian
Bosch, Thomas C. G.
Traulsen, Arne
Sieber, Michael

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https://doi.org/10.1098/rsif.2017.0563
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Interface : Journal of the Royal Society. Royal Society of London. 2017, 14(137), 20170563. ISSN 1742-5689. eISSN 1742-5662. Verfügbar unter: doi: 10.1098/rsif.2017.0563

Zusammenfassung

Microbial communities are accompanied by a diverse array of viruses. Through infections of abundant microbes, these viruses have the potential to mediate competition within the community, effectively weakening competitive interactions and promoting coexistence. This is of particular relevance for host-associated microbial communities, because the diversity of the microbiota has been linked to host health and functioning. Here, we study the interaction between two key members of the microbiota of the freshwater metazoan Hydra vulgaris . The two commensal bacteria Curvibacter sp. and Duganella sp. protect their host from fungal infections, but only if both of them are present. Coexistence of the two bacteria is thus beneficial for Hydra . Intriguingly, Duganella sp. appears to be the superior competitor in vitro due to its higher growth rate when both bacteria are grown separately, but in co-culture the outcome of competition depends on the relative initial abundances of the two species. The presence of an inducible prophage in the Curvibacter sp. genome, which is able to lytically infect Duganella sp., led us to hypothesize that the phage modulates the interaction between these two key members of the Hydra microbiota. Using a mathematical model, we show that the interplay of the lysogenic life cycle of the Curvibacter phage and the lytic life cycle on Duganella sp. can explain the observed complex competitive interaction between the two bacteria. Our results highlight the importance of taking lysogeny into account for understanding microbe–virus interactions and show the complex role phages can play in promoting coexistence of their bacterial hosts.

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Fachgebiet (DDC)
570 Biowissenschaften, Biologie

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bacterial competition, bacteria –phage interactions, mathematical modelling, lysogenic and lytic cycles

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ISO 690LI RICHTER, Xiang-Yi, Tim LACHNIT, Sebastian FRAUNE, Thomas C. G. BOSCH, Arne TRAULSEN, Michael SIEBER, 2017. Temperate phages as self-replicating weapons in bacterial competition. In: Interface : Journal of the Royal Society. Royal Society of London. 2017, 14(137), 20170563. ISSN 1742-5689. eISSN 1742-5662. Verfügbar unter: doi: 10.1098/rsif.2017.0563
BibTex
@article{LiRichter2017-12Tempe-73137,
  title={Temperate phages as self-replicating weapons in bacterial competition},
  year={2017},
  doi={10.1098/rsif.2017.0563},
  number={137},
  volume={14},
  issn={1742-5689},
  journal={Interface : Journal of the Royal Society},
  author={Li Richter, Xiang-Yi and Lachnit, Tim and Fraune, Sebastian and Bosch, Thomas C. G. and Traulsen, Arne and Sieber, Michael},
  note={Article Number: 20170563}
}
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