International audienceGenetic positive feedback loops are essential for cell decision making and cell differentiation. They are traditionally described by a two-dimensional smooth non-linear differential system composed of Hill functions. The bistability of this classic model properly captures the decision properties of these biological motifs. This paper designs a new control strategy based on the measurement and control of a unique gene with in the loop, in order to stabilize the system around its unstable fixed point. The quantized nature of genetic measurements and the new synthetic control approaches available in biology encourage the use of a piece wise constant control law. A specific partitioning of the state space and the study of ...
International audienceIn this preliminary work we give a geometric characterization of the time-opti...
The formation of spatiotemporal patterns of gene expression is frequently guided by gradients of dif...
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...
International audienceGenetic positive feedback loops are essential for cell decision making and cel...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modell...
Positive and negative genetic feedback loops are two main and essential gene regulatory motifs, resp...
International audienceGenetic positive feedback loops are essential for cell differentiation process...
International audienceA qualitative method to control piecewise affine differential systems is propo...
Genetic toggle switches consist of two mutually repressing transcription factors. The switch motif f...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modele...
BACKGROUND: Genetic switches exhibit multistability, form the basis of epigenetic memory, and are fo...
Abstract: In this paper, we consider the problem of optimal exogenous control of gene regulatory net...
The formation of spatiotemporal patterns of gene expression is frequently guided by gradients of dif...
In this paper, we consider the problem of optimal exogenous control of gene regulatory networks. Our...
SummaryBackgroundBistability in genetic networks allows cells to remember past events and to make di...
International audienceIn this preliminary work we give a geometric characterization of the time-opti...
The formation of spatiotemporal patterns of gene expression is frequently guided by gradients of dif...
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...
International audienceGenetic positive feedback loops are essential for cell decision making and cel...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modell...
Positive and negative genetic feedback loops are two main and essential gene regulatory motifs, resp...
International audienceGenetic positive feedback loops are essential for cell differentiation process...
International audienceA qualitative method to control piecewise affine differential systems is propo...
Genetic toggle switches consist of two mutually repressing transcription factors. The switch motif f...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modele...
BACKGROUND: Genetic switches exhibit multistability, form the basis of epigenetic memory, and are fo...
Abstract: In this paper, we consider the problem of optimal exogenous control of gene regulatory net...
The formation of spatiotemporal patterns of gene expression is frequently guided by gradients of dif...
In this paper, we consider the problem of optimal exogenous control of gene regulatory networks. Our...
SummaryBackgroundBistability in genetic networks allows cells to remember past events and to make di...
International audienceIn this preliminary work we give a geometric characterization of the time-opti...
The formation of spatiotemporal patterns of gene expression is frequently guided by gradients of dif...
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...