Cells can be thought of as cities, with factories, a transport system, and lots of building activity. An international team ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and ...

In a groundbreaking fusion of biology and technology, scientists have successfully 3D printed a tiny elephant inside a living cell. This remarkable feat not only showcases the potential of 3D printing ...

A new analytical method could improve how cancer treatments are designed—by allowing scientists to track, for the first time, ...

As the cell approaches division, it produces the DNA of its future daughter cell (red). While the goal of simulating a real, ...

The value measured by the 3D Cell Explorer is not fluorescence intensity of an exogenous molecule like with most optical microscopes. In contrast, Nanolive’s technology detects the physical refractive ...

3D printing technology has already transformed the field of biomedical research by allowing scientists to produce soft tissue, replacement windpipes, and working hearts on a whim. But each of these ...

Crystalline polymers assembled inside tumor cell lysosomes rupture membranes, release iron, and trigger immune-activating ferroptosis that shrinks tumors in mice. (Nanowerk Spotlight) Cells produce ...

Cells are crowded with proteins and nucleic acids. A new study measures subcellular densities across organisms to uncover how material is distributed. (Nanowerk News) Just as life pulsates in big ...