This thesis concerns the derivation and analysis of macroscopic mathematical models for coupled biological oscillators. Circadian rhythms, heart beats, and brain waves are all examples of biological rhythms formed through the aggregation of the rhythmic contributions of thousands of cellular oscillations. These systems evolve in an extremely high-dimensional phase space having at least as many degrees of freedom as the number of oscillators. This high-dimensionality often contrasts with the low-dimensional behavior observed on the collective or macroscopic scale. Moreover, the macroscopic dynamics are often of greater interest in biological applications. Therefore, it is imperative that mathematical techniques are developed to extract l...
Concentration oscillations are a ubiquitous characteristic of intracellular dynamics. The period of ...
Background: Virtually all living organisms have evolved a circadian (~24 hour) clock that controls p...
AbstractBioluminescence rhythms from cellular reporters have become the most common method used to q...
This thesis concerns the derivation and analysis of macroscopic mathematical models for coupled biol...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
Circadian rhythms are endogenous rhythms with a cycle length of approximately 24 h. Rhythmic product...
Ensembles of mutually coupled ultradian cellular oscillators have been proposed by a number of autho...
Circadian rhythm mechanisms involve multi-scale interactions between endogenous DNA-transcription os...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Explaining the complex dynamics exhibited in many biological mechanisms requires extending the recen...
AbstractMathematical model reduction is a long-standing technique used both to gain insight into mod...
The circadian rhythm refers to an internal body process that regulates many body processes including...
Present models for circadian rhythm generator are not sufficient to explain all the properties of a ...
Cells generate various biological rhythms that control important aspects of cell physiology includin...
In the activity rhythms of captive small mammals a variety of features, most notably “splitting”, su...
Concentration oscillations are a ubiquitous characteristic of intracellular dynamics. The period of ...
Background: Virtually all living organisms have evolved a circadian (~24 hour) clock that controls p...
AbstractBioluminescence rhythms from cellular reporters have become the most common method used to q...
This thesis concerns the derivation and analysis of macroscopic mathematical models for coupled biol...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
Circadian rhythms are endogenous rhythms with a cycle length of approximately 24 h. Rhythmic product...
Ensembles of mutually coupled ultradian cellular oscillators have been proposed by a number of autho...
Circadian rhythm mechanisms involve multi-scale interactions between endogenous DNA-transcription os...
Circadian oscillators (CO) are biochemical pathways in which a gene expresses mRNA cyclically to cre...
Explaining the complex dynamics exhibited in many biological mechanisms requires extending the recen...
AbstractMathematical model reduction is a long-standing technique used both to gain insight into mod...
The circadian rhythm refers to an internal body process that regulates many body processes including...
Present models for circadian rhythm generator are not sufficient to explain all the properties of a ...
Cells generate various biological rhythms that control important aspects of cell physiology includin...
In the activity rhythms of captive small mammals a variety of features, most notably “splitting”, su...
Concentration oscillations are a ubiquitous characteristic of intracellular dynamics. The period of ...
Background: Virtually all living organisms have evolved a circadian (~24 hour) clock that controls p...
AbstractBioluminescence rhythms from cellular reporters have become the most common method used to q...