Circadian rhythms occur in nearly all living organisms with a period close to 24 h. These rhythms constitute an important class of biological oscillators which present the characteristic of being naturally subjected to forcing by light-dark (LD) cycles. In order to investigate the conditions in which such a forcing might lead to chaos, we consider a model for a circadian limit cycle oscillator and assess its dynamic behavior when a light-sensitive parameter is periodically forced by LD cycles. We determine as a function of the forcing period and of the amplitude of the light-induced changes in the light-sensitive parameter the occurrence of various modes of dynamic behavior such as quasi-periodicity, entrainment, period-doubling and chaos. ...
Circadian clocks with characteristic period (Τ) can be entrained to light/dark (LD) cycles by means ...
There is one specific area where the problems of circadian rhythms inter-twine with those of tonic a...
Systems in a chaotic state have apparently random outputs despite a simple underlying kinetic mechan...
The circadian pacemakers, which have been discovered in most of living organisms, are known to be en...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
AbstractControlled chaos may be important for the generation of rhythmic behaviour in living systems...
Two examples each representing a biological network under oscillating conditions and in equilibrium ...
Circadian rhythms are established by the entrainment of our intrinsic body clock to periodic forcing...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Oscillations are found throughout the physical and biological worlds. Their interactions can result ...
The 2017 Nobel Prize in Physiology or Medicine awarded for discoveries of molecular mechanisms contr...
Oscillations are found throughout the physical and biological worlds. Their interactions can result ...
Light seems to be the only zeitgeber signal that reaches the pacemaker via specific pathways. For al...
The mammalian circadian pacemaker is commonly thought to be a rigid oscillator that generates output...
Circadian rhythms in mammals are controlled by the neurons located in the suprachiasmatic nucleus of...
Circadian clocks with characteristic period (Τ) can be entrained to light/dark (LD) cycles by means ...
There is one specific area where the problems of circadian rhythms inter-twine with those of tonic a...
Systems in a chaotic state have apparently random outputs despite a simple underlying kinetic mechan...
The circadian pacemakers, which have been discovered in most of living organisms, are known to be en...
AbstractThe circadian clocks keeping time in many living organisms rely on self-sustained biochemica...
AbstractControlled chaos may be important for the generation of rhythmic behaviour in living systems...
Two examples each representing a biological network under oscillating conditions and in equilibrium ...
Circadian rhythms are established by the entrainment of our intrinsic body clock to periodic forcing...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Oscillations are found throughout the physical and biological worlds. Their interactions can result ...
The 2017 Nobel Prize in Physiology or Medicine awarded for discoveries of molecular mechanisms contr...
Oscillations are found throughout the physical and biological worlds. Their interactions can result ...
Light seems to be the only zeitgeber signal that reaches the pacemaker via specific pathways. For al...
The mammalian circadian pacemaker is commonly thought to be a rigid oscillator that generates output...
Circadian rhythms in mammals are controlled by the neurons located in the suprachiasmatic nucleus of...
Circadian clocks with characteristic period (Τ) can be entrained to light/dark (LD) cycles by means ...
There is one specific area where the problems of circadian rhythms inter-twine with those of tonic a...
Systems in a chaotic state have apparently random outputs despite a simple underlying kinetic mechan...