phenomenon by invoking fitness tradeoffs, which can diminish an arms race dynamic.
7Here we propose that the regular loss of immunity by the bacterial host can also 8 produce host-phage coexistence. We pair a general model of immunity with an 9 experimental and theoretical case study of the CRISPR-Cas immune system to contrast 10 the behavior of tradeoff and loss mechanisms in well-mixed systems. We find that, while 11 both mechanisms can produce stable coexistence, only immune loss does so robustly 12 within realistic parameter ranges.
Bacteria and their viral pathogens face constant pressure for augmented immune and infective capabilities, respectively. Under this reciprocally imposed selective regime, we expect to see a runaway evolutionary arms race, ultimately leading to the extinction of one species. Despite this prediction, in many systems host and pathogen coexist with minimal coevolution even when well-mixed. Previous work explained this puzzling phenomenon by invoking fitness tradeoffs, which can diminish an arms race dynamic. Here we propose that the regular loss of immunity by the bacterial host can also produce host-phage coexistence. We pair a general model of immunity with an experimental and theoretical case study of the CRISPR-Cas immune system to contrast the behavior of tradeoff and loss mechanisms in well-mixed systems. We find that, while both mechanisms can produce stable coexistence, only immune loss does so robustly within realistic parameter ranges.
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