Researchers from Albert Einstein College of Medicine and the Salk Institute have developed VIS-Fb probes, a new class of fluorescent nanobodies that light up only when bound to target proteins, ...

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

These “on‑demand” probes, known as VIS‑Fbs, become brightly fluorescent only when they bind their intended protein targets.

No modern laboratory is complete without at least one basic microscope, an essential tool for biologists in medical research. Transmitted light methods have largely been replaced by fluorescent ...

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 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 ...

This interview dives into Curisosis' live cell imaging systems and how they improve reproducibility in cell-based assays.

Tunable red to green emissions in upconversion nanoparticles allow precise identification of single particles, enabling accurate, long-term multicolor tracking in complex live cell environments.

Super-resolution microscopy has promoted the development of cell biology, but imaging proteins with low copy numbers in cellular structures remains challenging. The limited number of designated ...

A research team from the School of Engineering at The Hong Kong University of Science and Technology (HKUST) has achieved a breakthrough in brain imaging by developing the world's first technology to ...