The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a highly non-random organization. The formation of nanoscale domains in the membrane is of particular interest as these domains underlie critical cellular functions. Single-molecule tracking is a powerful method to detect and quantify molecular motion at high temporal and spatial resolution and has therefore been instrumental in understanding mechanisms that underlie membrane organization. In single-molecule trajectories, regions of temporal confinement can be determined that might reveal interesting biophysical interactions important for domain formation. However, analytical methods for the detection of temporal confinement in single-molecule traj...
AbstractMolecules undergo non-Brownian diffusion in the plasma membrane, but the mechanism behind th...
AbstractResolving the dynamical interplay of proteins and lipids in the live-cell plasma membrane re...
International audienceResolving the dynamical interplay of proteins and lipids in the live-cell plas...
The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a high...
State-of-the-art single-particle tracking (SPT) techniques can generate long trajectories with high ...
Techniques such as single-particle tracking allow the characterization of the movements of single or...
State-of-the-art single particle tracking (SPT) techniques can generate long trajectories with high ...
The cell membrane acts as a barrier that controls the passage of substances from the outside to the ...
Techniques such as single-particle tracking allow the characterization of the movements of single or...
AbstractThe diffusion of receptors within the two-dimensional environment of the plasma membrane is ...
In this study, we have imaged plasma membrane molecules labeled with quantum dots in live cells usin...
The spatial organization of molecules in cell membranes and their dynamic interactions play a centra...
Single-particle tracking enables the analysis of the dynamics of biomolecules in living cells with n...
In this article, we introduce a new method to detect transient trapping events within a single parti...
109Recent developments in single-molecule localization techniques using photoactivatable fluorescent...
AbstractMolecules undergo non-Brownian diffusion in the plasma membrane, but the mechanism behind th...
AbstractResolving the dynamical interplay of proteins and lipids in the live-cell plasma membrane re...
International audienceResolving the dynamical interplay of proteins and lipids in the live-cell plas...
The plasma membrane consists of a diverse mixture of molecules that dynamically assemble into a high...
State-of-the-art single-particle tracking (SPT) techniques can generate long trajectories with high ...
Techniques such as single-particle tracking allow the characterization of the movements of single or...
State-of-the-art single particle tracking (SPT) techniques can generate long trajectories with high ...
The cell membrane acts as a barrier that controls the passage of substances from the outside to the ...
Techniques such as single-particle tracking allow the characterization of the movements of single or...
AbstractThe diffusion of receptors within the two-dimensional environment of the plasma membrane is ...
In this study, we have imaged plasma membrane molecules labeled with quantum dots in live cells usin...
The spatial organization of molecules in cell membranes and their dynamic interactions play a centra...
Single-particle tracking enables the analysis of the dynamics of biomolecules in living cells with n...
In this article, we introduce a new method to detect transient trapping events within a single parti...
109Recent developments in single-molecule localization techniques using photoactivatable fluorescent...
AbstractMolecules undergo non-Brownian diffusion in the plasma membrane, but the mechanism behind th...
AbstractResolving the dynamical interplay of proteins and lipids in the live-cell plasma membrane re...
International audienceResolving the dynamical interplay of proteins and lipids in the live-cell plas...