Analytic solutions for the circadian oscillator characterize cycle dynamics and its robustness
DOI10.1007/S00285-024-02164-YMaRDI QIDQ6659458
Odile Burckard, Madalena Chaves
Publication date: 9 January 2025
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
analytic solutionsparameter regionscircadian clock cycle dynamicsperiod robustnessperiodic sequence of regionspiecewise affine model
Periodic solutions to ordinary differential equations (34C25) Biological rhythms and synchronization (92B25) Hybrid systems of ordinary differential equations (34A38) Mathematical modeling or simulation for problems pertaining to biology (92-10)
Cites Work
- Qualitative simulation of genetic regulatory networks using piecewise-linear models
- Stable oscillations in mathematical models of biological control systems
- Transcription-based circadian mechanism controls the duration of molecular clock states in response to signaling inputs
- Using extremal events to characterize noisy time series
- Geometric properties of a class of piecewise affine biological network models
- Piecewise-linear models of genetic regulatory networks: equilibria and their stability
- Explicit construction of chaotic attractors in Glass networks
- Model Rejection and Parameter Reduction via Time Series
- Periodic solutions in systems of piecewise- linear differential equations
- Combinatorial Representation of Parameter Space for Switching Networks
- Analysis of continuous-time switching networks
- A yeast cell cycle pulse generator model shows consistency with multiple oscillatory and checkpoint mutant datasets
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