Add to ORKGtitles. Super-resolution 3D imaging was achieved using newly synthesized photoactivatable quantum dot (PAQ dot) probes. Quantum dots were modified with a novel quencher system to make them photoactivatable. The unique properties of these PAQ dots enable single-fluorophore localization in three dimensions using a confocal microscopy optical sectioning method. Myosin and tropomyosin of rabbit myofibrilar bundles were specifically labeled with the newly synthesized PAQ dot. A sufficient number of single quantum dots were photoactivated, localized and reduced to their centroid and then reconstructed to a super-resolution image. The acquired super-resolution image shows a lateral and an axial sub-diffraction resolution and demonstrates ultrafine...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
We recently refined the in vitro motility assay for studies of actomyosin function to achieve rectif...
WOS: 000369501800021One of the fastest moving fields in nanotechnology is the application of quantum...
Super-resolution 3D imaging was achieved using newly synthesized photoactivatable quantum dot (PAQ d...
We introduce semiconductor quantum dot-based fluorescence imaging with approximately 2-fold increase...
Quantum dots are promising candidates for single molecule imaging due to their exceptional photophys...
Fluorescence imaging is routinely used to obtain information on the spatial organisation of proteins...
DoctorProbe-based super-resolution imaging technique is becoming a rising tool for visualizing unkno...
AbstractWe introduce semiconductor quantum dot-based fluorescence imaging with ∼2-fold increased opt...
This study describes a simple technique that improves a recently developed 3D sub-diffraction imagin...
The most prominent restrictions of fluorescence microscopy are the limited resolution and the finite...
Quantum dots (QDs) have proved to be invaluable fluorophores for single molecule imaging at high spa...
(Figure Presented) Zooming in: Ultrahigh-resolution microscopy is developing rapidly by different ap...
Over the past few years, semiconductor quantum dots (QDs) have won recognition as an important sourc...
ABSTRACT: Immunofluorescence, a powerful technique to detect specific targets using fluorescently la...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
We recently refined the in vitro motility assay for studies of actomyosin function to achieve rectif...
WOS: 000369501800021One of the fastest moving fields in nanotechnology is the application of quantum...
Super-resolution 3D imaging was achieved using newly synthesized photoactivatable quantum dot (PAQ d...
We introduce semiconductor quantum dot-based fluorescence imaging with approximately 2-fold increase...
Quantum dots are promising candidates for single molecule imaging due to their exceptional photophys...
Fluorescence imaging is routinely used to obtain information on the spatial organisation of proteins...
DoctorProbe-based super-resolution imaging technique is becoming a rising tool for visualizing unkno...
AbstractWe introduce semiconductor quantum dot-based fluorescence imaging with ∼2-fold increased opt...
This study describes a simple technique that improves a recently developed 3D sub-diffraction imagin...
The most prominent restrictions of fluorescence microscopy are the limited resolution and the finite...
Quantum dots (QDs) have proved to be invaluable fluorophores for single molecule imaging at high spa...
(Figure Presented) Zooming in: Ultrahigh-resolution microscopy is developing rapidly by different ap...
Over the past few years, semiconductor quantum dots (QDs) have won recognition as an important sourc...
ABSTRACT: Immunofluorescence, a powerful technique to detect specific targets using fluorescently la...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
We recently refined the in vitro motility assay for studies of actomyosin function to achieve rectif...
WOS: 000369501800021One of the fastest moving fields in nanotechnology is the application of quantum...