The three-variable Goodwin oscillator is a minimal model demonstrating the emergence of oscillations in simple biochemical feedback systems. As a prototypical oscillator, this model was extensively studied from a theoretical point of view and applied to various biological systems, including circadian clocks. Here, we reexamine this model, derive analytically the amplitude equation near the Hopf bifurcation and investigate the effect of a periodic modulation of the oscillator. In particular, we compare the entrainment performance when the free oscillator displays either self-sustained or damped oscillations. We discuss the results in the context of circadian oscillators. © 2014 IOP Publishing Ltd.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally and fun...
<div><p>Oscillations occur in a wide variety of cellular processes, for example in calcium and p53 s...
<div><p>Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally...
The circadian pacemakers, which have been discovered in most of living organisms, are known to be en...
The Goodwin oscillator is a simple yet instructive mathematical model, describing a wide range of se...
<div><p>The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a del...
The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a delayed neg...
The 2017 Nobel Prize in Physiology or Medicine awarded for discoveries of molecular mechanisms contr...
The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a delayed neg...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Goodwin’s model oscillator, which consists of a negative feedback loop within a single gene expressi...
Circadian rhythms occur in nearly all living organisms with a period close to 24 h. These rhythms co...
Abstract: It is well known that a single feedback loop is sufficient to generate sustained oscillati...
Many organisms have evolved molecular clocks to anticipate daily changes in their environment. The m...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally and fun...
<div><p>Oscillations occur in a wide variety of cellular processes, for example in calcium and p53 s...
<div><p>Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally...
The circadian pacemakers, which have been discovered in most of living organisms, are known to be en...
The Goodwin oscillator is a simple yet instructive mathematical model, describing a wide range of se...
<div><p>The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a del...
The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a delayed neg...
The 2017 Nobel Prize in Physiology or Medicine awarded for discoveries of molecular mechanisms contr...
The Goodwin model is a 3-variable model demonstrating the emergence of oscillations in a delayed neg...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Goodwin’s model oscillator, which consists of a negative feedback loop within a single gene expressi...
Circadian rhythms occur in nearly all living organisms with a period close to 24 h. These rhythms co...
Abstract: It is well known that a single feedback loop is sufficient to generate sustained oscillati...
Many organisms have evolved molecular clocks to anticipate daily changes in their environment. The m...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally and fun...
<div><p>Oscillations occur in a wide variety of cellular processes, for example in calcium and p53 s...
<div><p>Homeostatic and adaptive control mechanisms are essential for keeping organisms structurally...