AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising method to investigate dynamic processes in live cells. Translating the trajectories of proteins to biological implications, such as protein interactions, requires the classification of protein motion within the trajectories. Spatial information of protein motion may reveal where the protein interacts with cellular structures, because binding of proteins to such structures often alters their diffusion speed. For dynamic diffusion systems, we provide an analytical framework to determine in which diffusion state a molecule is residing during the course of its trajectory. We compare different methods for the quantification of motion to utilize this f...
Protein diffusion is crucial for understanding the formation of protein complexes in vivo and has be...
International audienceMany transient processes in cells arise from the binding of cytosolic proteins...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
The movement of molecules inside living cells is a fundamental feature of biological processes. The ...
DoctorTranslational diffusion of protein and lipid molecules in cellular membrane plays a fundamenta...
AbstractSingle-molecule trajectories of molecules on the membrane of living cells have indicated the...
AbstractProtein mobility is conventionally analyzed in terms of an effective diffusion. Yet, this de...
International audienceMeasuring confined diffusion, Brownian motion and active transport is central ...
It has become increasingly evident that the spatial distribution and the motion of membrane componen...
It has become increasingly evident that the spatial distribution and the motion of membrane componen...
Analysis of the trajectories of small particles at high spatial and temporal resolution using video ...
The dynamics and fusion of vesicles during the last steps of exocytosis are not well established yet...
Protein diffusion is crucial for understanding the formation of protein complexes in vivo and has be...
International audienceMany transient processes in cells arise from the binding of cytosolic proteins...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
The movement of molecules inside living cells is a fundamental feature of biological processes. The ...
DoctorTranslational diffusion of protein and lipid molecules in cellular membrane plays a fundamenta...
AbstractSingle-molecule trajectories of molecules on the membrane of living cells have indicated the...
AbstractProtein mobility is conventionally analyzed in terms of an effective diffusion. Yet, this de...
International audienceMeasuring confined diffusion, Brownian motion and active transport is central ...
It has become increasingly evident that the spatial distribution and the motion of membrane componen...
It has become increasingly evident that the spatial distribution and the motion of membrane componen...
Analysis of the trajectories of small particles at high spatial and temporal resolution using video ...
The dynamics and fusion of vesicles during the last steps of exocytosis are not well established yet...
Protein diffusion is crucial for understanding the formation of protein complexes in vivo and has be...
International audienceMany transient processes in cells arise from the binding of cytosolic proteins...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...