A novel method to manipulate the inner structure of cells connects several scientific fields and could represent a ...

A newly discovered visual cell in deep-sea fish larvae is reshaping long-held assumptions about how vertebrates see the world.

A research team led by UAB researcher David Reverter has discovered the molecular mechanism that describes in detail the ...

For the modern technology leader, the quest for peak performance has traditionally been a matter of chemistry, an endless ...

A new artificial intelligence-driven pipeline developed in a collaborative research combines protein structure prediction, sequence design, and live-cell screening together to enable rapid conversion ...

AI‑enabled electronic mesh guides the maturation and coordination of lab‑grown islet cells, offering a potential new path toward future diabetes therapies.

A giant virus discovered in Japan is adding fuel to the provocative idea that viruses helped create complex life. Named ushikuvirus, it infects amoebae and shows unique traits that connect different ...

Nuclera, the biotechnology company enabling rapid access to high-quality proteins and leadXpro, a specialist in structure-based drug discovery for membrane proteins, today announced a scientific ...

Understanding how microscopic interactions between proteins in cells produce large-scale organization and asymmetry is a fundamental question in cell ...

Researchers at the MRC Laboratory of Medical Sciences (LMS) and Imperial College London have shown for the first time that, before they can start developing into egg and sperm cells, the embryonic ...

Living cells are highly organized, yet they are not assembled using rigid blueprints or by following a predetermined plan. Instead, order emerges on ...