Researchers have revealed how Staphylococcus aureus bacteria extract iron from hemoglobin—a process crucial to their survival ...

Protein–protein interaction networks are the networks of protein complexes formed by biochemical events and/or electrostatic forces and that serve a distinct biological function as a complex.

In the rapidly advancing field of molecular biology, techniques for studying protein interactions are constantly evolving. Among these, Surface Plasmon Resonance (SPR) stands out as a powerful ...

Advancements in machine learning are reshaping protein structure prediction, offering efficient tools that enhance drug ...

Microscale thermophoresis (MST) has emerged as a cutting-edge analytical technique, offering researchers robust and efficient solutions for studying biomolecular interactions. From drug discovery to ...

Evolution has been fine-tuning life at the molecular level for billions of years. Proteins, the fundamental building blocks ...

Their environments—water, lipid membranes, or other condensed phases—are critical to their function, shaping their structure and interactions. Yet many modern protein-design methods ...

A Cornell University-led collaboration has uncovered the equipment that enables bacteria to survive exposure to antibiotics: a shuttling mechanism that helps a complex of proteins pump out a wide ...

A study reveals why this assembly often begins during the very process of protein synthesis or 'birth'. These early interactions involve proteins whose stability depends on their association.

Researchers have developed a computational method to explicitly consider the impact of water while designing membrane receptors with enhanced stability and signaling, paving the way for novel drug ...

Vimentin is a type III intermediate filament (IF) protein normally expressed in cells that develop into connective tissue, ...