Single particle tracking (SPT) enables the investigation of biomolecular dynamics at a high temporal and spatial resolution in living cells, and the analysis of these SPT datasets can reveal biochemical interactions and mechanisms. Still, how to make the best use of these tracking data for a broad set of experimental conditions remains an analysis challenge in the field. Here, we develop a new SPT analysis framework: NOBIAS (NOnparametric Bayesian Inference for Anomalous Diffusion in Single-Molecule Tracking), which applies nonparametric Bayesian statistics and deep learning approaches to thoroughly analyze SPT datasets. In particular, NOBIAS handles complicated live-cell SPT data for which: the number of diffusive states is unknown, mixtur...
The movement of molecules inside living cells is a fundamental feature of biological processes. The ...
Membrane proteins move in heterogeneous environments with spatially (sometimes temporally) varying f...
International audienceTracking single molecules in living cells provides invaluable information on t...
Single-Particle Tracking (SPT) in living cells informs the dynamics of target molecules and enables ...
Transport of macromolecules, organelles and vesicles in living cells is a very complicated process t...
AbstractWe propose here an approach for the analysis of single-molecule trajectories which is based ...
The single-particle tracking technique, where individual molecules are fluorescently labelled and re...
Single-particle tracking (SPT) directly measures the dynamics of proteins in living cells and is a p...
The last decade has seen substantial advances in single-molecule tracking methods with nano-metre le...
Single-particle tracking (SPT) directly measures the dynamics of proteins in living cells and is a p...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
International audienceRecent advances in molecular biology and fluorescence microscopy imaging have ...
The movement of molecules inside living cells is a fundamental feature of biological processes. The ...
Membrane proteins move in heterogeneous environments with spatially (sometimes temporally) varying f...
International audienceTracking single molecules in living cells provides invaluable information on t...
Single-Particle Tracking (SPT) in living cells informs the dynamics of target molecules and enables ...
Transport of macromolecules, organelles and vesicles in living cells is a very complicated process t...
AbstractWe propose here an approach for the analysis of single-molecule trajectories which is based ...
The single-particle tracking technique, where individual molecules are fluorescently labelled and re...
Single-particle tracking (SPT) directly measures the dynamics of proteins in living cells and is a p...
The last decade has seen substantial advances in single-molecule tracking methods with nano-metre le...
Single-particle tracking (SPT) directly measures the dynamics of proteins in living cells and is a p...
Item does not contain fulltextSingle molecule tracking of membrane proteins by fluorescence microsco...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
Single molecule tracking of membrane proteins by fluorescence microscopy is a promising method to in...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
International audienceRecent advances in molecular biology and fluorescence microscopy imaging have ...
The movement of molecules inside living cells is a fundamental feature of biological processes. The ...
Membrane proteins move in heterogeneous environments with spatially (sometimes temporally) varying f...
International audienceTracking single molecules in living cells provides invaluable information on t...