The breakthrough could simplify the production of complex proteins used in cancer immunotherapy and other advanced medicines ...

Every second, hundreds to thousands of molecules move through thousands of nuclear pores in each of your cells. A new high-definition view reveals the machine in action.

These proteins depend on their partner because they are rapidly degraded if they are not combined into complexes as soon as they are made. Proteins, the pillars of cellular function, often assemble ...

The first full-length structures of two heat shock chaperone proteins in a complex reveal the key structural region regulating their function, according to a new study from St. Jude Children's ...

A recent article in Small describes a modular platform for assembling protein-DNA composites using covalent, site-specific conjugation. This method enables the formation of stable structures with ...

Artificial intelligence (AI) is transforming how scientists understand proteins—these are working molecules that drive nearly every process in the human body, from cell growth and immune defense to ...

Various approaches to such protein redesign have drawbacks. Traditional methods include time-consuming trial and error efforts, and many models in the emerging field ...

Proteins, the pillars of cellular function, often assemble into 'complexes' to fulfill their functions. A study reveals why this assembly often begins during the very process of protein synthesis or ...