Protein engineering and self-assembly techniques have transformed our capacity to design and manipulate protein structures for diverse applications. Through a combination of rational design and ...

Researchers capture first-of-its-kind video of dynein–Lis1 protein interaction, supporting future drug development for neurological disorders. Our cells rely on microscopic highways and specialized ...

Protein therapeutics have transformed modern medicine through precisely engineered molecules that offer targeted treatment options in a range of diseases. Advances in formulation strategies, stability ...

The paradigm in nutritional science is shifting from studying isolated nutrients to understanding the complex food matrix.

Researchers have identified a key molecular interaction that accelerates Parkinson’s disease by damaging the brain’s energy ...

Precise methods for shredding or repairing and replacing specific cancer-causing proteins in a malignant cell, developed at ...

Scientists have used deep learning to design new proteins that bind to complexes involving other small molecules like hormones or drugs, opening up a world of possibilities in the computational design ...

In the rapidly advancing field of computational biology, a newly peer-reviewed review explores the transformative role of deep learning techniques in revolutionizing protein structure prediction. The ...

This fully updated volume explores a wide array of new and state-of-the-art tools and resources for protein function prediction. Beginning with in-depth overviews of essential underlying computational ...

Protein-degrader structure and function have been captured in unprecedented detail. Protein degraders are recognized as an exciting avenue for drug discovery and development, providing targeted ...