The dependence on model-fitting to evaluate particle trajectories makes it difficult for single particle tracking (SPT) to resolve the heterogeneous molecular motions typical of cells. We present here a global spatiotemporal sampler for SPT solutions using a Metropolis-Hastings algorithm. The sampler does not find just the most likely solution but also assesses its likelihood and presents alternative solutions. This enables the estimation of the tracking error. Furthermore the algorithm samples the parameters that govern the tracking process and therefore does not require any tweaking by the user. We demonstrate the algorithm on synthetic and single molecule data sets. Metrics for the comparison of SPT are generalised to be applied to a SPT...
Abstract: Trajectories of individual molecules moving within complex environments such as cell cytop...
Assessing the quality of parameter estimates for models describing the motion of single molecules in...
Recent advances in optical microscopy have enabled the acquisition of very large datasets from livin...
Single-molecule localization microscopy allows practitioners to locate and track labeled molecules i...
International audienceThe characterization of molecule dynamics in living cells is of paramount inte...
Single-particle tracking (SPT) has become an important method to bridge biochemistry and cell biolog...
Quantitative analysis of microscopy images is ideally suited for understanding the functional biolog...
Single fluorescence molecule microscopy provides a privileged approach achieving a spatial resolutio...
The advent of single molecule microscopy enabled the study of subcellular processes at the single mo...
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) is widely used to study processes from membrane receptor organization...
International audienceMeasuring confined diffusion, Brownian motion and active transport is central ...
Using fluorescence microscopy with single molecule sensitivity it is now possible to follow the move...
The advent of single molecule microscopy has rev- olutionized biological investigations by providing...
Abstract: Trajectories of individual molecules moving within complex environments such as cell cytop...
Assessing the quality of parameter estimates for models describing the motion of single molecules in...
Recent advances in optical microscopy have enabled the acquisition of very large datasets from livin...
Single-molecule localization microscopy allows practitioners to locate and track labeled molecules i...
International audienceThe characterization of molecule dynamics in living cells is of paramount inte...
Single-particle tracking (SPT) has become an important method to bridge biochemistry and cell biolog...
Quantitative analysis of microscopy images is ideally suited for understanding the functional biolog...
Single fluorescence molecule microscopy provides a privileged approach achieving a spatial resolutio...
The advent of single molecule microscopy enabled the study of subcellular processes at the single mo...
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) is widely used to study processes from membrane receptor organization...
International audienceMeasuring confined diffusion, Brownian motion and active transport is central ...
Using fluorescence microscopy with single molecule sensitivity it is now possible to follow the move...
The advent of single molecule microscopy has rev- olutionized biological investigations by providing...
Abstract: Trajectories of individual molecules moving within complex environments such as cell cytop...
Assessing the quality of parameter estimates for models describing the motion of single molecules in...
Recent advances in optical microscopy have enabled the acquisition of very large datasets from livin...