AbstractDiffusion time distribution analysis has been employed to highlight the microfluidity fingerprint of plasma membrane of living cells. Diffusion time measurements were obtained through fluorescence correlation spectroscopy performed at the single cell level, over various eukaryotic cell lines (MCF7, LR73, KB3.1, MESSA and MDCKII). The nonsymmetric profile of the diffusion time distributions established experimentally, is discussed according to Monte Carlo simulations, which reproduce the diffusion of the fluorescent probe in heterogeneous membrane
Fluorescence correlation spectroscopy (FCS) is a single molecule technique very well suitedfor in vi...
AbstractSingle-molecule tracking and fluorescence correlation spectroscopy (FCS) applied to the plas...
Fluorescence correlation spectroscopy (FCS) is a fluctuation spectroscopic method established three ...
International audienceDiffusion time distribution analysis has been employed to highlight the microf...
AbstractDiffusion time distribution analysis has been employed to highlight the microfluidity finger...
AbstractThe plasma membrane of various mammalian cell types is heterogeneous in structure and may co...
International audienceDynamic biological processes in living cells, including those associated with ...
ABSTRACT To probe the complexity of the cell membrane organization and dynamics, it is important to ...
International audienceMany transient processes in cells arise from the binding of cytosolic proteins...
AbstractTo probe the complexity of the cell membrane organization and dynamics, it is important to o...
Fluorescence correlation spectroscopy (FCS) is frequently used to study diffusion in cell membranes,...
Cells rely on versatile diffusion dynamics in their plasma membrane. Quantification of this often he...
The plasma membrane organization of live cells defines a plethora of cellular processes important fo...
Our present description of the plasma membrane includes heterogeneities or mechanisms that may hinde...
The cellular plasma membrane encloses all mammalian cells and is a heterogeneous structure organised...
Fluorescence correlation spectroscopy (FCS) is a single molecule technique very well suitedfor in vi...
AbstractSingle-molecule tracking and fluorescence correlation spectroscopy (FCS) applied to the plas...
Fluorescence correlation spectroscopy (FCS) is a fluctuation spectroscopic method established three ...
International audienceDiffusion time distribution analysis has been employed to highlight the microf...
AbstractDiffusion time distribution analysis has been employed to highlight the microfluidity finger...
AbstractThe plasma membrane of various mammalian cell types is heterogeneous in structure and may co...
International audienceDynamic biological processes in living cells, including those associated with ...
ABSTRACT To probe the complexity of the cell membrane organization and dynamics, it is important to ...
International audienceMany transient processes in cells arise from the binding of cytosolic proteins...
AbstractTo probe the complexity of the cell membrane organization and dynamics, it is important to o...
Fluorescence correlation spectroscopy (FCS) is frequently used to study diffusion in cell membranes,...
Cells rely on versatile diffusion dynamics in their plasma membrane. Quantification of this often he...
The plasma membrane organization of live cells defines a plethora of cellular processes important fo...
Our present description of the plasma membrane includes heterogeneities or mechanisms that may hinde...
The cellular plasma membrane encloses all mammalian cells and is a heterogeneous structure organised...
Fluorescence correlation spectroscopy (FCS) is a single molecule technique very well suitedfor in vi...
AbstractSingle-molecule tracking and fluorescence correlation spectroscopy (FCS) applied to the plas...
Fluorescence correlation spectroscopy (FCS) is a fluctuation spectroscopic method established three ...