Background: Gene regulation has, for the most part, been quantitatively analysed by assuming that regulatory mechanisms operate at thermodynamic equilibrium. This formalism was originally developed to analyse the binding and unbinding of transcription factors from naked DNA in eubacteria. Although widely used, it has made it difficult to understand the role of energy-dissipating, epigenetic mechanisms, such as DNA methylation, nucleosome remodelling and post-translational modification of histones and co-regulators, which act together with transcription factors to regulate gene expression in eukaryotes. Results: Here, we introduce a graph-based framework that can accommodate non-equilibrium mechanisms. A gene-regulatory system is described a...
The number of mRNA and protein molecules expressed from a single gene molecule fluctuates over time....
International audienceAbstract In eukaryotes, many stable and heritable phenotypes arise from the sa...
<p>We work on constructing mathematical models of gene regulatory networks for periodic processes, s...
A framework for modelling gene regulation which accommodates non-equilibrium mechanisms Tobias Ahsen...
International audienceModels of transcriptional regulation that assume equilibrium binding of transc...
International audienceTranscriptional regulation is an inherently dynamic process that rely on the s...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
Biology is currently in the midst of a revolution. Great technological advances have led to unpreced...
Thermodynamic models of gene regulation can predict transcriptional regulation in bacteria, but in e...
Background: Transcriptional gene regulation is one of the most important mechanisms in controlling m...
AbstractWe propose a protein interaction network for the regulation of DNA synthesis and mitosis tha...
AbstractTranscription is regulated by a multitude of factors that concertedly induce genes to switch...
The human DNA molecule is a 2 meters long polymer collapsed into the micrometer space of the cell nu...
© 2019 Chagoyen, Poyatos. TEnvironmental or genetic perturbations lead to gene expression changes. W...
Motivation: Regulatory gene networks contain generic modules such as feedback loops that are essenti...
The number of mRNA and protein molecules expressed from a single gene molecule fluctuates over time....
International audienceAbstract In eukaryotes, many stable and heritable phenotypes arise from the sa...
<p>We work on constructing mathematical models of gene regulatory networks for periodic processes, s...
A framework for modelling gene regulation which accommodates non-equilibrium mechanisms Tobias Ahsen...
International audienceModels of transcriptional regulation that assume equilibrium binding of transc...
International audienceTranscriptional regulation is an inherently dynamic process that rely on the s...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
Biology is currently in the midst of a revolution. Great technological advances have led to unpreced...
Thermodynamic models of gene regulation can predict transcriptional regulation in bacteria, but in e...
Background: Transcriptional gene regulation is one of the most important mechanisms in controlling m...
AbstractWe propose a protein interaction network for the regulation of DNA synthesis and mitosis tha...
AbstractTranscription is regulated by a multitude of factors that concertedly induce genes to switch...
The human DNA molecule is a 2 meters long polymer collapsed into the micrometer space of the cell nu...
© 2019 Chagoyen, Poyatos. TEnvironmental or genetic perturbations lead to gene expression changes. W...
Motivation: Regulatory gene networks contain generic modules such as feedback loops that are essenti...
The number of mRNA and protein molecules expressed from a single gene molecule fluctuates over time....
International audienceAbstract In eukaryotes, many stable and heritable phenotypes arise from the sa...
<p>We work on constructing mathematical models of gene regulatory networks for periodic processes, s...