AbstractSingle-molecule fluorescence microscopy is a powerful tool for observing biomolecular interactions with high spatial and temporal resolution. Detecting fluorescent signals from individual labeled proteins above high levels of background fluorescence remains challenging, however. For this reason, the concentrations of labeled proteins in in vitro assays are often kept low compared to their in vivo concentrations. Here, we present a new fluorescence imaging technique by which single fluorescent molecules can be observed in real time at high, physiologically relevant concentrations. The technique requires a protein and its macromolecular substrate to be labeled each with a different fluorophore. Making use of short-distance energy-tran...
ABSTRACT Biological structures span many orders of magnitude in size, but far-field visible light mi...
We develop and employ the Fluorescence-Activating and absorption-Shifting Tag (FAST) system for supe...
AbstractWe have previously introduced tethered fluorophore motion (TFM), a single-molecule fluoresce...
Single-molecule fluorescence microscopy is a powerful tool for observing biomolecular interactions w...
AbstractSingle-molecule fluorescence microscopy is a powerful tool for observing biomolecular intera...
Single-molecule fluorescence imaging is often incompatible with physiological protein concentrations...
Fluorescence microscopy offers a minimally perturbative approach to probe biology in vivo. However, ...
Single-molecule FRET has been widely used for monitoring protein-nucleic acids interactions. Direct ...
In the last two decades emerging single-molecule fluorescence tools have been developed and adapted ...
Photobleaching limits extended imaging of fluorescent biological samples. We developed DNA-based 'Fl...
We have previously introduced tethered fluorophore motion (TFM), a single-molecule fluorescence tech...
In vivo single-molecule experiments offer new perspectives on the behaviour of DNA binding proteins,...
Single-molecule localization microscopy (SMLM) can reveal nanometric details of biological samples, ...
Complexity and heterogeneity are common denominators of the many molecular events taking place insid...
This dissertation presents techniques for localizing and quantifying fluorophores in biological imag...
ABSTRACT Biological structures span many orders of magnitude in size, but far-field visible light mi...
We develop and employ the Fluorescence-Activating and absorption-Shifting Tag (FAST) system for supe...
AbstractWe have previously introduced tethered fluorophore motion (TFM), a single-molecule fluoresce...
Single-molecule fluorescence microscopy is a powerful tool for observing biomolecular interactions w...
AbstractSingle-molecule fluorescence microscopy is a powerful tool for observing biomolecular intera...
Single-molecule fluorescence imaging is often incompatible with physiological protein concentrations...
Fluorescence microscopy offers a minimally perturbative approach to probe biology in vivo. However, ...
Single-molecule FRET has been widely used for monitoring protein-nucleic acids interactions. Direct ...
In the last two decades emerging single-molecule fluorescence tools have been developed and adapted ...
Photobleaching limits extended imaging of fluorescent biological samples. We developed DNA-based 'Fl...
We have previously introduced tethered fluorophore motion (TFM), a single-molecule fluorescence tech...
In vivo single-molecule experiments offer new perspectives on the behaviour of DNA binding proteins,...
Single-molecule localization microscopy (SMLM) can reveal nanometric details of biological samples, ...
Complexity and heterogeneity are common denominators of the many molecular events taking place insid...
This dissertation presents techniques for localizing and quantifying fluorophores in biological imag...
ABSTRACT Biological structures span many orders of magnitude in size, but far-field visible light mi...
We develop and employ the Fluorescence-Activating and absorption-Shifting Tag (FAST) system for supe...
AbstractWe have previously introduced tethered fluorophore motion (TFM), a single-molecule fluoresce...