descSPIM enables three-dimensional imaging of diverse tissues like neural cells and cancerous tumors. The widespread dissemination and adoption of descSPIM can accelerate biomedical discoveries. Three ...

Fluorescence nanoscopy has transformed our ability to visualize and discover biological structures. In recent years, ultraprecise single-molecule localization techniques such as MINFLUX and RASTMIN ...

It is the computational processing of images that reveals the finest details of a sample placed under all kinds of different light microscopes. Even though this processing has come a long way, there ...

The brain is the most energy-demanding organ in the body, in part due to its complexity. Its components are varied and intricate: comprising different cell types, including neurons designed to ...

How do photosynthetic organisms harvest light so efficiently? To help answer this question, researchers have developed an ultrafast transient ...

In life sciences, confocal fluorescence microscopy (CFM) is widely regarded for producing high-resolution cellular images. However, it requires fluorescent staining, which poses risks of ...

The tool enables continuous femtosecond measurements and resolves hidden kinetic components, revealing how structural ...

Thanks to a recent study by researchers at IOCB Prague, it is now possible to monitor processes in living cells more effectively than before, including responses to drugs and changes in cellular ...