High-speed atomic force microscopy (HS-AFM) is the only experimental technique to directly watch proteins in dynamic action.

In this interview, we explore how single-cell technologies, automation and strategic partnerships are shaping the future of cancer immunotherapy.

Discover how researchers are leveraging high-speed atomic force microscopy and flexible fitting to create atomistic models of ...

From this core mechanism Fc engineering has evolved over time into the "engine" of therapeutic antibody development. It ...

Researchers in Japan have developed a Nuclear Magnetic Resonance spectroscopy technique that captures how enzymes move and ...

A new quantum computing protocol may be able to augment a standard technique for understanding molecules in chemistry, ...

Growing consensus is emerging that artificial intelligence (AI) may assist biotechnology and life sciences companies to draft ...

The secretory pathway in eukaryotic cells is crucial for maintaining cellular function and physiological activities, as it ...

Chronic kidney disease (CKD) is a progressive condition in which the kidneys gradually lose their ability to filter waste ...

Metabolism guides the activation states of regulatory T cells, the immune cells that prevent inappropriate activation of the ...