Structured illumination microscopy (SIM) is the most preferable system for live-cell super-resolution imaging. It enables the observation of intricate subcellular dynamics. However, conventional SIM ...

Researchers have announced several major microscopy innovations that enhance resolution, sensitivity, and analytical capabilities for live biological imaging. Advances include AI-driven aberration ...

Imaging live cells without disrupting their natural behavior or damaging their structures is one key challenge in biomedical optics, and has been tackled in multiple ways. A project at NIST has now ...

New fluorescent dyes allow scientists to watch cancer activity inside living cells in real time, opening new possibilities for treatment.

Understanding how living cells grow, respond to stimuli, and change over time is central to modern cell biology and drug discovery. Many traditional imaging approaches rely on fluorescent labels, ...

Researchers are deploying advanced AI systems to dramatically improve scientific imaging, data analysis, and laboratory workflows. New techniques, such as UC San Diego’s AI-enhanced live-cell ...

Researchers seeking to explore live-cell dynamics can now turn to rapid, precise, and gentle technologies that address conventional microscopy challenges such as limited temporal resolution and ...

CAPTION: (Top) Condensins seem to act as a molecular crosslinkers to make loops. (Bottom, left) Condensins (red) locate around chromosome center. (Bottom, right) Nucleosomes around the periphery ...

Using artificial intelligence, engineers have developed a new way to watch the inner workings of living cells in real time.