Textbooks often depict proteins in one conformation, but real life, as usual, is much messier. While some proteins have stable, unchanging structures, many others have intrinsically disordered regions ...

Recently, the research team of Prof. WANG Qian from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS) and Prof. BAI Fang from ShanghaiTech University ...

Misfolded proteins can appear as small aggregates, soluble monomers, or large insoluble inclusion bodies. While the fundamental biophysical mechanisms that cause cytotoxicity are not fully understood, ...

The way proteins move is often what gives them biological activity: they can open, close, twist, and rearrange themselves in ways that allow them to bind to other molecules or perform complex ...

The strategies biopharmaceutical manufacturers currently use to limit protein misfolding are complex, time-consuming, and generate low yields with only limited scalability. Covalent organic frameworks ...

The proteins found in nature represent only a tiny fraction of the nearly limitless protein structures that could theoretically exist. By designing proteins de novo—from scratch—scientists can more ...

How do neurons transport proteins? A new study reveals that Kinesin-2 motor subtypes regulate cargo specificity.

Protein engineering is a powerful biotechnological process that focuses on creating new enzymes or proteins and improving the functions of existing ones by manipulating their natural macromolecular ...