Two parallel experiments in protein self-assembly produced strikingly different results, demonstrating that protein designers ...

Nanopores are tiny, nanometer-scale apertures that are synthetically produced in manufactured materials as well as biological membranes. They allow ions or molecules to pass through and have been ...

New research from scientists at the University of Birmingham and other institutions describes a method of counting labeled proteins in living cells dubbed Protein-tag Degree of Labeling (PRoDOL) that ...

Real-time and in-line accurate measuring of protein (monoclonal antibody, or mAb) concentration has been shown across a wide dynamic range (0–135 g/L) through the ...

Nanopore sensing relies on measuring changes in ionic current as biomolecules pass through a nanoscale pore embedded in a membrane. When a voltage is applied across the membrane, ions flow through the ...

The proteome is an incredibly rich and dynamic source of biological information, key to understanding how cells function in sickness and health. Genes and genomes give hints as to what might happen in ...

Advanced proteomics and AI reveal blood protein changes, offering insights into early Alzheimer's detection and differentiation from mild cognitive impairment.

Your next favorite true crime podcast might have some new forensics jargon to make sense of. Researchers in Australia have developed a new way to identify humans – similar to how we do with DNA and ...