We describe a simple automated method to extract and quantify transient heterogeneous dynamical changes from large data sets generated in single-molecule/particle tracking experiments. Based on wavelet transform, the method transforms raw data to locally match dynamics of interest. This is accomplished using statistically adaptive universal thresholding, whose advantage is to avoid a single arbitrary threshold that might conceal individual variability across populations. How to implement this multiscale method is described, focusing on local confined diffusion separated by transient transport periods or hopping events, with three specific examples: in cell biology, biotechnology, and glassy colloid dynamics. The discussion is generalized wi...
Quantitative analysis of dynamic processes in living cells using time-lapse microscopy requires not ...
Single-particle tracking is a powerful approach to study the motion of individual molecules and part...
State-of-the-art single particle tracking (SPT) techniques can generate long trajectories with high ...
We describe a simple automated method to extract and quantify transient heterogeneous dynamical chan...
Optical microscopes and nanoscale probes (AFM, optical tweezers, etc.) afford researchers tools capa...
Long time scale molecular dynamics (MD) simulations of biological systems are becoming increasingly ...
The wavelet transform (WT) is suggested as an analysis tool in molecular dynamics by analogy with it...
International audienceWe present a Bayesian framework for inferring spatio-temporal maps of diffusiv...
The dependence on model-fitting to evaluate particle trajectories makes it difficult for single part...
We develop a Bayesian analysis framework to detect heterogeneity in the diffusive behaviour of singl...
Recent advances in molecular biology and fluorescence microscopy imaging have made possible the infe...
<div><p>We develop a Bayesian analysis framework to detect heterogeneity in the diffusive behaviour ...
Single particle tracking is a powerful technique often used in the study of dynamic mechanisms on th...
State-of-the-art single-particle tracking (SPT) techniques can generate long trajectories with high ...
MasterIn this thesis, to deal with a spatiotemporal heterogeneity in living cells, we develop a nove...
Quantitative analysis of dynamic processes in living cells using time-lapse microscopy requires not ...
Single-particle tracking is a powerful approach to study the motion of individual molecules and part...
State-of-the-art single particle tracking (SPT) techniques can generate long trajectories with high ...
We describe a simple automated method to extract and quantify transient heterogeneous dynamical chan...
Optical microscopes and nanoscale probes (AFM, optical tweezers, etc.) afford researchers tools capa...
Long time scale molecular dynamics (MD) simulations of biological systems are becoming increasingly ...
The wavelet transform (WT) is suggested as an analysis tool in molecular dynamics by analogy with it...
International audienceWe present a Bayesian framework for inferring spatio-temporal maps of diffusiv...
The dependence on model-fitting to evaluate particle trajectories makes it difficult for single part...
We develop a Bayesian analysis framework to detect heterogeneity in the diffusive behaviour of singl...
Recent advances in molecular biology and fluorescence microscopy imaging have made possible the infe...
<div><p>We develop a Bayesian analysis framework to detect heterogeneity in the diffusive behaviour ...
Single particle tracking is a powerful technique often used in the study of dynamic mechanisms on th...
State-of-the-art single-particle tracking (SPT) techniques can generate long trajectories with high ...
MasterIn this thesis, to deal with a spatiotemporal heterogeneity in living cells, we develop a nove...
Quantitative analysis of dynamic processes in living cells using time-lapse microscopy requires not ...
Single-particle tracking is a powerful approach to study the motion of individual molecules and part...
State-of-the-art single particle tracking (SPT) techniques can generate long trajectories with high ...