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 ...

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.

During infection or cancer, cytotoxic T lymphocytes attach to their target and establish an exchange zone known as the immune ...

A Moffitt Cancer Center researcher has introduced a new model that addresses one of biology's most fundamental questions: How does genetic information keep living systems organized and therefore alive ...

Cryo-expansion microscopy has enabled researchers to visualise the three-dimensional organisation of cytotoxic T lymphocytes ...

From geometric distortions to precision catalysts, chemists are finding new ways to control a molecule’s 3D shape — and with it, its behavior in the body. These breakthroughs in stereochemistry are ...

When your healthcare provider orders an MRI, they give you a very strict rule: absolutely no metal allowed in the machine.