Researchers at Durham University have achieved a major advancement in understanding how proteins bind metals inside cells, a process crucial to life. The study, published in Nature Communications, ...

The availability of large-scale protein-protein interaction data has led to the recent popularity of the study of protein interaction networks. Just as the enormous amount of available sequence ...

A novel geometric deep learning framework designs ligand-specific protein binders, enhancing therapeutic potential in cell ...

The identification of protein interactions has been greatly simplified by the invention of yeast-based screening assays such as the yeast two-hybrid system. However, yeast two-hybrid assays cannot ...

EPFL scientists have used deep learning to design new proteins that bind to complexes involving other small molecules like ...

Scientists have tested out how different blends of plant proteins and oils impact properties such as stretch and nutrition in ...

Researchers at Durham University have achieved a major advancement in understanding how proteins bind metals inside cells, a process ...

Integral membrane proteins carry out essential functions in the cell, and their activities are often modulated by specific protein-lipid interactions in the membrane. Here, we elucidate the intricate ...

This valuable study investigates how the proteins of the Cdv division system in Metallosphaera sedula archaea sequentially interact with curved membranes in vitro, extending our understanding of this ...

Researchers at Durham University have achieved a major advancement in understanding how proteins bind metals inside cells, a process crucial to life.

New study uncovers key insights into protein interactions in Duchenne muscular dystrophy, paving way for more targeted therapies. ScienceDaily . Retrieved January 25, 2025 from www.sciencedaily ...