Cabrera Cortada, J.; Mitarai, N.

Bacteria cells infected by T-even bacteriophages exhibit a variety of multiplicity of infection (MOI) depenent behaviours: lysis from without (LO) for high number of superinfection, development of resistance against LO (LOR), and lysis inhibition (LIN), a phenomenon in which host cell lysis is delayed when multiple phages infect the same bacterium. We propose an individual-based model that captures these MOI-dependent dynamics phenomenologically. The model assumes a fixed average delay in lysis timing per superinfection, with stochastic variability, and successfully reproduces the experimentally observed multiple peaks in phage production following controlled phage addition. We extend the model to simulate batch culture growth and demonstrate that synchronized collapse of LINed culture can emerge as a collective phenomenon when LOR cells have a higher, but finite, LO threshold. Finally, we apply the model to a spatially structured bacterial colony under phage attack. We find that LO plays a critical role in phage spread due to locally elevated MOI near lysing cells. These results highlight the importance of spatial dynamics and superinfection thresholds in phage-host population outcomes.