Kenneth B. Hannsgen scite author profile

A model of the cell cycle, incorporating a deterministic cell-size monitor and a probabilistic component, is investigated. Steady-state distributions for cell size and generation time are calculated and shown to be globally asymptotically stable. These distributions are used to calculate various statistical quantities, which are then compared to known experimental data. Finally, the results are compared to distributions calculated from a Monte-Carlo simulation of the model.

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Uniform $L^1 $ Behavior in Classes of Integrodifferential Equations with Completely Monotonic Kernels

Hannsgen¹,

Wheeler²

1984

SIAM J. Math. Anal.

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A Nonhomogeneous Integrodifferential Equation in Hilbert Space

Carr¹,

Hannsgen²

1979

SIAM J. Math. Anal.

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Global asymptotic stability of the size distribution in probabilistic models of the cell cycle

Tyson

Hannsgen

1985

J. Math. Biology

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Probabilistic models of the cell cycle maintain that cell generation time is a random variable given by some distribution function, and that the probability of cell division per unit time is a function only of cell age (and not, for instance, of cell size). Given the probability density, f(t), for time spent in the random compartment of the cell cycle, we derive a recursion relation for psi n(x), the probability density for cell size at birth in a sample of cells in generation n. For the case of exponential growth of cells, the recursion relation has no steady-state solution. For the case of linear cell growth, we show that there exists a unique, globally asymptotically stable, steady-state birth size distribution, psi*(x). For the special case of the transition probability model, we display psi*(x) explicitly.

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The distributions of cell size and generation time in a model of the cell cycle incorporating size control and random transitions

Tyson¹,

Hannsgen²

1985

Journal of Theoretical Biology

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