Nikon Instruments Inc. today unveiled the winners of its 15th annual Nikon Small World in Motion Video Competition, an ...

For immune cells, the actin cytoskeleton is more than a structural scaffold. Immune cells can migrate to sites of infection ...

New research shows that cancer cells don’t just grow; they adapt when stressed. When squeezed inside tissues, they transform ...

Our bodies are made up of countless cells, and each one is enclosed by a thin layer called the cell membrane. This membrane ...

Cell membranes in our body relies on membrane viscosity to transport membranes and carry-out cellular functions. But ...

Our bodies are made up of countless cells, and each one is enclosed by a thin layer called the cell membrane. This membrane ...

The cytoskeleton is a critical component of cancer cell migration and is broadly involved in cell structure and motility. The ...

Researchers have uncovered a central role for Tropomodulin-2 (TMOD2) in promoting colorectal cancer (CRC) progression and ...

Traditional studies in cell dynamics rely on manual labeling and trajectory analysis, making it challenging to cope with the high throughput of data and the complexity of lysosomal movement under ...

A cell’s ability to change shape depends on its actin cytoskeleton — a dense, dynamic network of branched filaments beneath ...

Pressure from surrounding tissues activates invasive programs in cancer cells. This mechanical stress rewires epigenetic regulation. Cancer cells are notoriously adaptable, capable of shifting their ...

Severe burns and traumatic injuries are still treated much as they were decades ago – by transplanting thin layers of the ...