Fluorescent proteins can be turned into qubits within cells and could give us a deeper understanding of biology at the ...

Researchers at Michigan State University have figured out how to use a fast laser to wiggle atoms in a way that temporarily ...

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

This important study demonstrates that ocular organoids can generate both retina and lens through a non-canonical, "inside-out" morphogenetic route. The work is solid, with well-designed experiments ...

Using a suction device to stretch the skin seems to increase its permeability and stimulate immune cells, which could allow vaccines to be administered topically ...

The researchers' novel approach could lead to smaller, and more efficient electronics – such as  smartphones – in the future.

Scientists at the CSIR-Centre for Cellular and Molecular Biology (CCMB), Hyderabad, have discovered how cells remodel their internal skeletons to form rapid protrusions, a mechanism vital for immune ...

The new collaboration allows scientists, including those in underserved regions such as Africa, to collect and process ...

Aging, neurological diseases and our bodies' stress response are all linked to the tiny power plants inside each cell known ...

Over a thousand elementary schoolkids learned about stem cells, brains, bacteria, and more at Columbia University Irving ...

Children with a rare, debilitating muscle disease could benefit from the findings of new research by experts at UCL and Great Ormond Street Hospital (GOSH).

They derive their energy from differences in the concentration of hydrogen ions across some of these membranes ...