AbstractMathematical model reduction is a long-standing technique used both to gain insight into model subprocesses and to reduce the computational costs of simulation and analysis. A reduced model must retain essential features of the full model, which, traditionally, have been the trajectories of certain state variables. For biological clocks, timing, or phase, characteristics must be preserved. A key performance criterion for a clock is the ability to adjust its phase correctly in response to external signals. We present a novel model reduction technique that removes components from a single-oscillator clock model and discover that four feedback loops are redundant with respect to its phase response behavior. Using a coupled multioscilla...
Sensitivity and robustness are essential properties of circadian clock systems, enabling them to res...
AbstractCircadian rhythms possess the ability to robustly entrain to the environmental cycles. This ...
International audienceThe problem of phase regulation for a population of oscillating systems is con...
AbstractMathematical model reduction is a long-standing technique used both to gain insight into mod...
peer reviewedThe Phase Response Curve (PRC) has proven a useful tool for the reduction of complex os...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
peer reviewedThe paper discusses elementary control strategies to control the phase of an oscillator...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2008.This ele...
AbstractCircadian clocks are biological oscillators that regulate daily behaviors in organisms acros...
Circadian rhythms are endogenous rhythms with a cycle length of approximately 24 h. Rhythmic product...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
Circadian rhythm mechanisms involve multi-scale interactions between endogenous DNA-transcription os...
This thesis concerns the derivation and analysis of macroscopic mathematical models for coupled biol...
Many organisms have evolved molecular clocks to anticipate daily changes in their environment. The m...
Exploration of chronobiological systems emerges as a growing research field within bioinformatics fo...
Sensitivity and robustness are essential properties of circadian clock systems, enabling them to res...
AbstractCircadian rhythms possess the ability to robustly entrain to the environmental cycles. This ...
International audienceThe problem of phase regulation for a population of oscillating systems is con...
AbstractMathematical model reduction is a long-standing technique used both to gain insight into mod...
peer reviewedThe Phase Response Curve (PRC) has proven a useful tool for the reduction of complex os...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
peer reviewedThe paper discusses elementary control strategies to control the phase of an oscillator...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2008.This ele...
AbstractCircadian clocks are biological oscillators that regulate daily behaviors in organisms acros...
Circadian rhythms are endogenous rhythms with a cycle length of approximately 24 h. Rhythmic product...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
Circadian rhythm mechanisms involve multi-scale interactions between endogenous DNA-transcription os...
This thesis concerns the derivation and analysis of macroscopic mathematical models for coupled biol...
Many organisms have evolved molecular clocks to anticipate daily changes in their environment. The m...
Exploration of chronobiological systems emerges as a growing research field within bioinformatics fo...
Sensitivity and robustness are essential properties of circadian clock systems, enabling them to res...
AbstractCircadian rhythms possess the ability to robustly entrain to the environmental cycles. This ...
International audienceThe problem of phase regulation for a population of oscillating systems is con...