International audienceElucidating protein functions and molecular organisation requires to localise precisely single or aggregated molecules and analyse their spatial distributions. We develop a statistical method SODA (Statistical Object Distance Analysis) that uses either micro- or nanoscopy to significantly improve on standard co-localisation techniques. Our method considers cellular geometry and densities of molecules to provide statistical maps of isolated and associated (coupled) molecules. We use SODA with three-colour structured-illumination microscopy (SIM) images of hippocampal neurons, and statistically characterise spatial organisation of thousands of synapses. We show that presynaptic synapsin is arranged in asymmetric triangle...
The function of synapses depends on spatially and temporally controlled molecular interactions betwe...
The complex, nanoscopic scale of neuronal function, taking place at dendritic spines, axon terminals...
Inferring the organization of fluorescently labeled nanosized structures from single molecule locali...
International audienceElucidating protein functions and molecular organisation requires to localise ...
Single-molecule localization (SML) techniques provide a powerful tool to answer biological questions...
Visualizing the subcellular distribution of proteins and determining whether specific proteins co-lo...
The advent of super-resolution microscopy provided both a substantial improvement of the spatial res...
SummaryDetermination of the molecular architecture of synapses requires nanoscopic image resolution ...
Abstract: Recent years have witnessed huge progress in the field of light microscopy with the develo...
Summary: Super-resolution microscopy (SRM) has been widely adopted to probe molecular distribution a...
Inferring the organization of fluorescently labeled nanosized structures from single molecule locali...
Over the past years several forms of superresolution fluorescence microscopy have been developed tha...
<div><p>Single Molecule Localization Microscopy techniques like PhotoActivated Localization Microsco...
Described in this thesis are the development and use of novel single molecule localization microscop...
Described in this thesis are the development and use of novel single molecule localization microscop...
The function of synapses depends on spatially and temporally controlled molecular interactions betwe...
The complex, nanoscopic scale of neuronal function, taking place at dendritic spines, axon terminals...
Inferring the organization of fluorescently labeled nanosized structures from single molecule locali...
International audienceElucidating protein functions and molecular organisation requires to localise ...
Single-molecule localization (SML) techniques provide a powerful tool to answer biological questions...
Visualizing the subcellular distribution of proteins and determining whether specific proteins co-lo...
The advent of super-resolution microscopy provided both a substantial improvement of the spatial res...
SummaryDetermination of the molecular architecture of synapses requires nanoscopic image resolution ...
Abstract: Recent years have witnessed huge progress in the field of light microscopy with the develo...
Summary: Super-resolution microscopy (SRM) has been widely adopted to probe molecular distribution a...
Inferring the organization of fluorescently labeled nanosized structures from single molecule locali...
Over the past years several forms of superresolution fluorescence microscopy have been developed tha...
<div><p>Single Molecule Localization Microscopy techniques like PhotoActivated Localization Microsco...
Described in this thesis are the development and use of novel single molecule localization microscop...
Described in this thesis are the development and use of novel single molecule localization microscop...
The function of synapses depends on spatially and temporally controlled molecular interactions betwe...
The complex, nanoscopic scale of neuronal function, taking place at dendritic spines, axon terminals...
Inferring the organization of fluorescently labeled nanosized structures from single molecule locali...