A Stochastic Model for Virus Growth in a Cell Population

In this work we introduce a stochastic model for the spread of a virus in a cell population where the virus has two ways of spreading: either by allowing its host cell to live and duplicate, or by multiplying in large numbers within the host cell, causing the host cell to burst and thereby let the v...

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Bibliographic Details
Published in:Journal of applied probability 2014-09, Vol.51 (3), p.599-612
Main Authors: Björnberg, J. E., Britton, T., Broman, E. I., Natan, E.
Format: Article
Language:English
Subjects:
60J27
60J28
60J80
60J85
92D15
Bacteriophage lambda
Balancing
Branching process
Cell growth
Infections
interacting branching process
Markov processes
model for virus growth
Optimization
Parasite hosts
Population growth
Population parameters
Random variables
Spreading
Spreads
Stochastic models
Stochasticity
Strategy
Studies
Survival
Viruses
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Description
Summary:In this work we introduce a stochastic model for the spread of a virus in a cell population where the virus has two ways of spreading: either by allowing its host cell to live and duplicate, or by multiplying in large numbers within the host cell, causing the host cell to burst and thereby let the virus enter new uninfected cells. The model is a kind of interacting Markov branching process. We focus in particular on the probability that the virus population survives and how this depends on a certain parameter λ which quantifies the ‘aggressiveness’ of the virus. Our main goal is to determine the optimal balance between aggressive growth and long-term success. Our analysis shows that the optimal strategy of the virus (in terms of survival) is obtained when the virus has no effect on the host cell's life cycle, corresponding to λ = 0. This is in agreement with experimental data about real viruses.
ISSN:0021-9002
1475-6072
1475-6072
DOI:10.1239/jap/1409932661