Cells have an internal skeleton that maintains their structure and also drives their movement. Known as the cytoskeleton, ...

A new dual-light microscope lets researchers observe micro- and nanoscale activity inside living cells without using dyes.

A single iron-sulfur building block directly determines whether ribosomes—the protein factories of our cells—work smoothly or ...

A soft microrobot uses light driven motion, temperature sensing, and localized heating to control single cells inside 3D ...

Researchers at the University of Tokyo have built a microscope that can detect a signal over an intensity range 14 times ...

Researchers have designed a smart drug that hunts down and breaks a little-known RNA that cancer cells depend on. The drug ...

The company is finalising commissioning at its new facility and is in advanced talks with major two-wheeler OEMs for initial ...

University of Tokyo researchers have created a powerful new microscope that captures both forward- and back-scattered light ...

A computer model developed by researchers from Japan and Seattle's Allen Institute could lead to new methods for studying ...

New research shows that rearranging the location of lipid droplets in cancer cells can increase the effectiveness of cell ...

In recent years, perovskite has emerged as a promising solution for cheaper, more efficient solar energy. This advanced ...