Self-sustaining positive feedback loops in discrete and continuous systems
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Publication:1712861
DOI10.1016/j.jtbi.2018.09.017zbMath1406.92253OpenAlexW2890723367WikidataQ91625648 ScholiaQ91625648MaRDI QIDQ1712861
Publication date: 1 February 2019
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2018.09.017
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Cites Work
- Dynamics and control at feedback vertex sets. I: Informative and determining nodes in regulatory networks
- Logical identification of all steady states: The concept of feedback loop characteristic states
- Dynamics and control at feedback vertex sets. II: A faithful monitor to determine the diversity of molecular activities in regulatory networks
- The topology of the regulatory interactions predicts the expression pattern of the segment polarity genes in \textit{Drosophila melanogaster}
- Simple mathematical models of gene regulatory dynamics
- Multi-stability in monotone input/output systems
- Multistationarity, the basis of cell differentiation and memory. II. Logical analysis of regulatory networks in terms of feedback circuits
- Multistationarity, the basis of cell differentiation and memory. I. Structural conditions of multistationarity and other nontrivial behavior
- An effective network reduction approach to find the dynamical repertoire of discrete dynamic networks
- Correspondence of Trap Spaces in Different Models of Bioregulatory Networks
- Multiple Equilibria in Complex Chemical Reaction Networks: II. The Species-Reaction Graph
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