This new technique for mapping out atom placements in the active site of enzymes could unlock the potential for finding new therapeutics.

A new Blood Proteoform Atlas maps 30,000 unique proteoforms as they appear in 21 different cell types found in human blood. The MagLab's 21 tesla FT-ICR mass spectrometer contributed nearly a third of the atlas' proteoforms. 

A University of Colorado researcher digs below the virus's membrane in search of another layer of infection-causing proteins.

A sports and science mash up featuring a few new geeky games inspired by the cool things scientists study in high-field magnets. 

For membrane protein expert Tim Cross, the call to solve the structure of a misunderstood protein put retirement on hold.

Inside the virus that causes COVID-19 are thousands of potential drug targets. As part of a global team, Lucio Frydman is on a needle-in-a-haystack hunt for the best candidates.

New insights challenge current understanding of how ion transport through some cell membranes works.

Magnetic Resonance Imaging (MRI) of mouse models for Alzheimer’s disease can be used to determine brain response to plaque deposits and inflammation that ultimately disrupt emotion, learning, and memory. Quantification of the early changes with high resolution MRI could help monitor and predict disease progression, as well as potentially suggest new treatment methods.

In the hands of Peter Gor'kov, scientific tools become works of fine art.

Precise determination of hemoglobin sequence and subunit quantitation from human blood for diagnosis of hemoglobin-based diseases.

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