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

A major limitation to the discovery of new therapeutics and unique biomarkers of disease is the ability to identify, purify, and characterize valuable trace proteins in the presence of highly abundant ...

Treatment of neurodegenerative diseases faces a significant challenge due to the lack of effective diagnostic methods for early detection and monitoring of disease progression. Protein misfolding, a ...

Explore how proteomics enhances infectious disease detection, pathogen identification, and host response profiling in ...

Spread the loveIn a groundbreaking study published on March 14, 2026, scientists from Durham University unveiled a fascinating discovery that could transform the landscape of rapid diagnostic testing ...

MiROM identifies proteins by using mid-infrared light to detect molecular vibrations – essentially the natural "dance" of molecules within protein structures. Unlike optical spectroscopy, which ...

Human cells contain approximately 20,000 protein-encoding genes. However, the actual number of proteins observed in cells is far greater, with over 1,000,000 different structures known. These variants ...

Explore how proteomics in cancer research advances tumor profiling, biomarker discovery, and precision oncology workflows.

As the demands for more detailed protein characterization increase, many companies are working to meet those demands through new tools, technologies, and assays. Alistair Kippen, Ph.D., head of ...

Expression proteomics determines where and when proteins are expressed and measures their quantities. This qualitative and quantitative approach can compare protein expression across conditions, such ...