Restriction modification systems as engines of diversity
Copyright policy )Restriction modification systems as engines of diversity
Restriction modification (RM) systems provide protection against a broad spectrum of phages. However, the likelihood of a phage permanently bypassing this can be as high as 0.1 per infection (Korona et al., 1993) which makes for a relatively weak defense. Here we argue that, apart from providing such transient defenses, RM systems can facilitate long-term coexistence of many bacterial strains. We show that this diversity can be as large as the burst size of the phage but no larger-a curious correspondence between a number at the level of species and another number at the level of individuals. Such a highly diverse and stably coexisting ecosystem is robust to substantial variation in both bacterial growth rates and strength of their RM systems, which might be one reason why quite weak RM systems exist in the wild.
- University of Copenhagen Denmark
- University of Copenhagen Denmark
- Niels Bohr Institute Denmark
- National Center for Biological Sciences (NCBS), Bangalore, India India
epigenetic labelling, epigenetic labeling, ecosystem diversity, Population Dynamics, mathematical modeling, bacteriophage defense, Microbiology, QR1-502, Phage-bacteria interaction, population dynamics, bacteriophage defence, phage-bacteria interaction, mathematical modelling, Ecosystem diversity
epigenetic labelling, epigenetic labeling, ecosystem diversity, Population Dynamics, mathematical modeling, bacteriophage defense, Microbiology, QR1-502, Phage-bacteria interaction, population dynamics, bacteriophage defence, phage-bacteria interaction, mathematical modelling, Ecosystem diversity
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