The body’s “killer” T cells don’t just attack—they strike with astonishing precision, forming a tiny, highly organized ...

Cytotoxic T lymphocytes are the body's specialized "killer" cells, precisely eliminating infected or cancerous cells. Their ...

From classrooms to cutting-edge labs, 3D molecular visualization is transforming how we understand chemistry. Digital tools, physical models, and quantum-informed simulations are making the invisible ...

Folding-mediated self-assembly of luminescent molecules reveals a new design principle for efficient light-energy ...

Researchers used cryo-expansion microscopy to map the immune synapse in near-native conditions, uncovering structural ...

Modern medicine has played a significant role in improving the length and quality of our lives. While many treatments may ...

A printable polymer that traps water molecules flips humidity from a performance-killer into a performance-booster for motion-powered generators, enabling wireless charging of implantable electronics ...

A new method developed at Baylor College of Medicine and collaborating institutions allows researchers to better understand ...

Nature is replete with slender filaments that bend and coil—from climbing grape vines, to folded proteins, to elephant trunks that can pick up a peanut but also take down a tree.

Webs of star-shaped cells called astrocytes connect distant parts of the brain, allowing long-distance exchange of molecules.