Scientists at the University of Osaka have developed a novel hydrogel that enables the efficient, three-dimensional (3D) ...

Nanorobots use precise mechanical pressure to guide stem cells into becoming bone cells, advancing regenerative medicine and ...

Cornell researchers have developed a powerful new biosensor that reveals, in unprecedented detail, how and where ...

Scientists have extracted the oldest RNA molecules out of a woolly mammoth, gaining a snapshot into the processes at work in ...

Scientists have recovered RNA from a mammoth carcass preserved in permafrost for 40,000 years. The ancient molecules reveal details about the creature’s last moments.

New research shows RNA is preserved for longer than scientists had realized. This is the oldest RNA ever profiled.

Learn about a new biosensor that enhances kinase activity monitoring, revealing intricate details of cellular responses and drug actions.

Scientists at the University of Oxford, have identified how rare populations of abnormal cells drive the formation and ...

In trials TUM used mesenchymal stem cells, 10 to 20 microns in size and known to be able to differentiate into bone, cartilage and muscle cells. TUM found that its photothermal method could reliably ...

Many of the most devastating illnesses are like black boxes to science. Most cancer deaths, for example, are caused by strain ...

The development of a new electromagnetic system could improve research and clinical capabilities through precise cell levitation.

Short ultraviolet/ozone (UVO) treatment optimizes cell adhesion on plastic culture substrates by selectively enriching ...