Add to ORKGGene Regulatory Networks (GRNs) describe how chemical species within a cell interact with one another, thereby governing the rates at which key genes are expressed. This thesis is concerned with modeling a particular GRN, Arabidopsis thaliana Circadian Clock, by considering three different approaches; discrete stochastic, continuous stochastic and parameter variation. By considering these different methods we will see if the desired behavior required from our network is robust to biological noise. Through employing stochastic approaches we found the GRN under question is robust to biological noise to a point; the results of our study led to a couple of interesting questions to people within the field. When the number of molecules involved i...
[[abstract]]The circadian regulatory network is one of the main topics of plant investigations. The ...
We assess the accuracy of various state-of-the-art methods for reconstructing gene and protein regu...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
In spite of remarkable progress in molecular biology, our understanding of the dynamics and function...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
Circadian clocks allow living organisms to anticipate and adapt to the daily variations of the envir...
We assess the accuracy of various state-of-the-art methods for reconstructing gene and protein regul...
The effect of the molecular noise by considering the stochastic version of a core deterministic mode...
Rhythmic behavior is essential for plants; for example, daily (circadian) rhythms control photosynth...
Rhythmic behavior is essential for plants; for example, daily (circadian) rhythms control photosynth...
A stochastic genetic toggle switch model that consists of two identical, mutually repressive genes i...
[[abstract]]The circadian regulatory network is one of the main topics of plant investigations. The ...
We assess the accuracy of various state-of-the-art methods for reconstructing gene and protein regu...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
In spite of remarkable progress in molecular biology, our understanding of the dynamics and function...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
We assess the accuracy of various state-of-the-art statistics and machine learning methods for recon...
Circadian clocks allow living organisms to anticipate and adapt to the daily variations of the envir...
We assess the accuracy of various state-of-the-art methods for reconstructing gene and protein regul...
The effect of the molecular noise by considering the stochastic version of a core deterministic mode...
Rhythmic behavior is essential for plants; for example, daily (circadian) rhythms control photosynth...
Rhythmic behavior is essential for plants; for example, daily (circadian) rhythms control photosynth...
A stochastic genetic toggle switch model that consists of two identical, mutually repressive genes i...
[[abstract]]The circadian regulatory network is one of the main topics of plant investigations. The ...
We assess the accuracy of various state-of-the-art methods for reconstructing gene and protein regu...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...