International audienceWe present an overview of diffusion models commonly used for quantifying the dynamics of intracellular particles (e.g. biomolecules) inside eukaryotic living cells. It is established that inference on the modes of mobility of molecules is central in cell biology since it reflects interactions between structures and determines functions of biomolecules in the cell. In that context, Brownian motion is a key component in short distance transportation (e.g. connectivity for signal transduction). Another dynamical process that has been heavily studied in the past decade is the motor-mediated transport (e.g. dynein, kinesin and myosin) of molecules. Primarily supported by actin filament and microtubule network, it ensures sp...
Transport of macromolecules, organelles and vesicles in living cells is a very complicated process t...
International audienceIt is of primary interest for biologists to be able to visualize the dynamics ...
Elucidating the process by which a biological system evolves and properly identifying hidden states ...
International audienceWe present an overview of diffusion models commonly used for quantifying the d...
In this thesis, we are interested in quantifying the dynamics of intracellular particles as proteins...
In this thesis, we are interested in quantifying the dynamics of intracellular particles, as protein...
The interior of a living cell is a crowded, heterogenuous, fluctuating environment. Hence, a major c...
AbstractThe transduction of signals depends on the translocation of signaling molecules to specific ...
AbstractThe crowded intracellular environment poses a formidable challenge to experimental and theor...
National audienceBecause macromolecules in biological cells interact only when they meet, the way by...
Random motion within the cytoplasm gives rise to molecular diffusion; this motion is essential to ma...
International audienceThe characterization of molecule dynamics in living cells is essential to deci...
L'objet de cette thèse est l'étude quantitative du mouvement des particules intracellulaires, comme ...
In this thesis, I discuss two main subjects coming from biology and I propose two models that mimic ...
All cellular functions arise from the transport of molecules through a heterogeneous, highly dynamic...
Transport of macromolecules, organelles and vesicles in living cells is a very complicated process t...
International audienceIt is of primary interest for biologists to be able to visualize the dynamics ...
Elucidating the process by which a biological system evolves and properly identifying hidden states ...
International audienceWe present an overview of diffusion models commonly used for quantifying the d...
In this thesis, we are interested in quantifying the dynamics of intracellular particles as proteins...
In this thesis, we are interested in quantifying the dynamics of intracellular particles, as protein...
The interior of a living cell is a crowded, heterogenuous, fluctuating environment. Hence, a major c...
AbstractThe transduction of signals depends on the translocation of signaling molecules to specific ...
AbstractThe crowded intracellular environment poses a formidable challenge to experimental and theor...
National audienceBecause macromolecules in biological cells interact only when they meet, the way by...
Random motion within the cytoplasm gives rise to molecular diffusion; this motion is essential to ma...
International audienceThe characterization of molecule dynamics in living cells is essential to deci...
L'objet de cette thèse est l'étude quantitative du mouvement des particules intracellulaires, comme ...
In this thesis, I discuss two main subjects coming from biology and I propose two models that mimic ...
All cellular functions arise from the transport of molecules through a heterogeneous, highly dynamic...
Transport of macromolecules, organelles and vesicles in living cells is a very complicated process t...
International audienceIt is of primary interest for biologists to be able to visualize the dynamics ...
Elucidating the process by which a biological system evolves and properly identifying hidden states ...