Noise-induced dispersion and breakup of clusters in cell cycle dynamics
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Publication:890683
DOI10.1016/j.jtbi.2014.03.034zbMath1325.92030OpenAlexW2012243511WikidataQ40732039 ScholiaQ40732039MaRDI QIDQ890683
Alexander B. Neiman, Xue Gong, Gregory A. Moses, Todd R. Young
Publication date: 11 November 2015
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: http://europepmc.org/articles/pmc4058369
Related Items (5)
Bounded noise induced first-order phase transitions in a baseline non-spatial model of gene transcription ⋮ Instability of k-Cluster Solutions in a Cell Cycle Population Model when k is Prime ⋮ Clusters Tend to Be of Equal Size in a Negative Feedback Population Model of Cell Cycle Dynamics ⋮ Instability of the steady state solution in cell cycle population structure models with feedback ⋮ Properties of bounded stochastic processes employed in biophysics
Cites Work
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- Cell cycle clustering and quorum sensing in a response / signaling mediated feedback model
- On the stability of the cell size distribution
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- Stability of the steady-state size distribution in a model of cell growth and division
- Clustering in cell cycle dynamics with general response/signaling feedback
- Cell cycle dynamics: clustering is universal in negative feedback systems
- ODE, RDE and SDE models of cell cycle dynamics and clustering in yeast
- Bifurcations of Random Differential Equations with Bounded Noise
- Bifurcations of stationary measures of random diffeomorphisms
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