Photoactivation and photodissociation are useful tools in tandem mass spectrometry, but implementation often involves cumbersome…

Nicholas Riley was featured in Badger Chemistry News! Read the interview here: https://badgerchemistnews.chem.wisc.edu/2018/07/11/nicholas-m-riley/

Paul Hutchins manuscript, LipiDex: an integrated software package for high-confidence lipid identification, received numerous positive…

by Morgridge Institute for Research | February 7, 2018 A new chair at the Morgridge…

Authors Rebecca Blank, chancellor of the University of Wisconsin-Madison, and Brad Schwartz, CEO of Morgridge…
Historically, The Coon Research Group has been focused on protein analysis with mass spectrometry. More recently, we’ve been interested in small molecule work in the field of metabolomics.
Historically, The Coon Research Group has been focused on protein analysis with mass spectrometry. More recently, we’ve been interested in small molecule work in the field of metabolomics.
Researchers at the University of Wisconsin-Madison have found a new way to accelerate a workhorse instrument that identifies proteins. The high-speed technique could help diagnose cancer sooner and point to new drugs for treating a wide range of conditions.
Parallel reaction monitoring (PRM) – based targeted mass spectrometry is comparable in performance to selected reaction monitoring (SRM) but requires much less investment in assay development for targeted proteomics applications.