International audienceCellular reprogramming, a technique that opens huge opportunities in modern and regenerative medicine, heavily relies on identifying key genes to perturb. Most of the existing computational methods for controlling which attractor (steady state) the cell will reach focus on finding mutations to apply to the initial state. However, it has been shown, and is proved in this article, that waiting between perturbations so that the update dynamics of the system prepares the ground, allows for new reprogramming strategies. To identify such sequential perturbations, we consider a qualitative model of regulatory networks, and rely on Binary Decision Diagrams to model their dynamics and the putative perturbations. Our method esta...
International audienceIn this paper, we address the formal characterization of targets triggering ce...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
International audienceBackgroundNumerous cellular differentiation processes can be captured using di...
International audienceCellular reprogramming, a technique that opens huge opportunities in modern an...
International audienceCellular reprogramming, a technique that opens huge opportunities in modern an...
This thesis explains what is cell reprogramming in Boolean networks, and what are several methods to...
This thesis explains what is cell reprogramming in Boolean networks, and what are several methods to...
International audienceA major challenge in precision medicine consists in finding the appropriate ne...
Best paper awardInternational audienceWe address the sequential reprogramming of gene regulatory net...
International audienceNetwork controllability is a major challenge in network medicine. The problem ...
Direct cell reprogramming has been garnering attention for its therapeutic potential for treating th...
Cette thèse explique ce qu'est la reprogrammation cellulaire dans le cadre des réseaux Booléens, et ...
Progress in cell type reprogramming has revived the interest in Waddington’s concept of the epigenet...
peer reviewedBoolean network is a popular and well-established modelling framework for gene regulato...
International audienceIn this paper, we address the formal characterization of targets triggering ce...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
International audienceBackgroundNumerous cellular differentiation processes can be captured using di...
International audienceCellular reprogramming, a technique that opens huge opportunities in modern an...
International audienceCellular reprogramming, a technique that opens huge opportunities in modern an...
This thesis explains what is cell reprogramming in Boolean networks, and what are several methods to...
This thesis explains what is cell reprogramming in Boolean networks, and what are several methods to...
International audienceA major challenge in precision medicine consists in finding the appropriate ne...
Best paper awardInternational audienceWe address the sequential reprogramming of gene regulatory net...
International audienceNetwork controllability is a major challenge in network medicine. The problem ...
Direct cell reprogramming has been garnering attention for its therapeutic potential for treating th...
Cette thèse explique ce qu'est la reprogrammation cellulaire dans le cadre des réseaux Booléens, et ...
Progress in cell type reprogramming has revived the interest in Waddington’s concept of the epigenet...
peer reviewedBoolean network is a popular and well-established modelling framework for gene regulato...
International audienceIn this paper, we address the formal characterization of targets triggering ce...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
International audienceBackgroundNumerous cellular differentiation processes can be captured using di...