Labeling internal structures within living cells with standard fluorescent probes is a challenging problem. Here, we introduce a novel intracellular staining method that enables us to carefully control the labeling process and provides instant access to the inner structures of living cells. Using a hollow glass capillary with a diameter of <100 nm, we deliver functionalized fluorescent probes directly into the cells by (di)electrophoretic forces. The label density can be adjusted and traced directly during the staining process by fluorescence microscopy. We demonstrate the potential of this technique by delivering and imaging a range of commercially available cell-permeable and nonpermeable fluorescent probes to cells
BACKGROUND: Microscopic techniques enable real-space imaging of complex biological events and proces...
Fluorescence nanoscopy uniquely combines minimally invasive optical access to the internal nanoscale...
Fluorescent imaging techniques for visualization of nuclear structure and function in live cells are...
Labeling internal structures within living cells with standard fluorescent probes is a challenging p...
Hennig S, van de Linde S, Lummer M, Simonis M, Huser T, Sauer M. Instant Live-Cell Super-Resolution ...
Fluorescence imaging of intracellular proteins is often achieved by using transfection-induced expre...
Live-cell labelling techniques to visualize proteins with minimal disturbance are important; however...
Small fluorescent molecules have been an important tool for fluorescence-based imaging, thanks to th...
Super-resolution microscopy in living cells can be restricted by the availability of small molecule ...
Accurate labeling of endogenous proteins for advanced light microscopy in living cells remains chall...
Fluorescence labelling of an intracellular biomolecule in native living cells is a powerful strategy...
It is difficult to develop suitable fluorescent probes for live-cell nanoscopy, but a general strate...
Super-resolution fluorescence microscopy is a powerful tool to visualize biomolecules and cellular s...
Super-resolution fluorescence microscopy is a powerful tool to visualize biomolecules and cellular s...
Point localization super-resolution imaging (SR) requires dyes that can cycle between fluorescent an...
BACKGROUND: Microscopic techniques enable real-space imaging of complex biological events and proces...
Fluorescence nanoscopy uniquely combines minimally invasive optical access to the internal nanoscale...
Fluorescent imaging techniques for visualization of nuclear structure and function in live cells are...
Labeling internal structures within living cells with standard fluorescent probes is a challenging p...
Hennig S, van de Linde S, Lummer M, Simonis M, Huser T, Sauer M. Instant Live-Cell Super-Resolution ...
Fluorescence imaging of intracellular proteins is often achieved by using transfection-induced expre...
Live-cell labelling techniques to visualize proteins with minimal disturbance are important; however...
Small fluorescent molecules have been an important tool for fluorescence-based imaging, thanks to th...
Super-resolution microscopy in living cells can be restricted by the availability of small molecule ...
Accurate labeling of endogenous proteins for advanced light microscopy in living cells remains chall...
Fluorescence labelling of an intracellular biomolecule in native living cells is a powerful strategy...
It is difficult to develop suitable fluorescent probes for live-cell nanoscopy, but a general strate...
Super-resolution fluorescence microscopy is a powerful tool to visualize biomolecules and cellular s...
Super-resolution fluorescence microscopy is a powerful tool to visualize biomolecules and cellular s...
Point localization super-resolution imaging (SR) requires dyes that can cycle between fluorescent an...
BACKGROUND: Microscopic techniques enable real-space imaging of complex biological events and proces...
Fluorescence nanoscopy uniquely combines minimally invasive optical access to the internal nanoscale...
Fluorescent imaging techniques for visualization of nuclear structure and function in live cells are...