Intrinsically disordered proteins (IDPs) do not attain a stable secondary or tertiary structure and rapidly change their conformation, making structure prediction particularly challenging.

The intrinsically disordered proteins (IDPs) do not attain a stable secondary or tertiary structure and rapidly change their conformation, making structure prediction particularly challenging.

Enzymes found in landfills around the world may be able to break down plastic waste. Some 11 billion metric tons of plastic ...

Protein folding is the process by which proteins achieve their mature functional (native) tertiary structure, and often begins co-translationally. Protein folding requires chaperones and often ...

The intrinsically disordered proteins (IDPs) do not attain a stable secondary or tertiary structure and rapidly change their conformation, making structure prediction particularly challenging. These ...

The intrinsically disordered proteins (IDPs) do not attain a stable secondary or tertiary structure and rapidly change their ...

To understand how RNA functions, it is essential for scientists to know its 3D structure. Kihara studies protein tertiary structure prediction/comparison, protein-protein docking, protein-ligand ...

Quercus Biosolutions is a startup using generative AI to create a new generation of crop protection products based on ...

Proteins in these molecules have typically ... NuFold: end-to-end approach for RNA tertiary structure prediction with flexible nucleobase center representation.

The result is a three-dimensional Fourier, or electron-density, map of the unit cell, which for the first time reveals the general nature of the tertiary structure of a protein molecule.