Ying Ge | |
Alma Mater: | Cornell University University of Peking |
Workplaces: | University of Wisconsin-Madison Wyeth |
Thesis Title: | Top down characterization of proteins by electron capture dissociation and blackbody infrared radiative dissociation mass spectrometry |
Thesis Url: | http://www.worldcat.org/oclc/52791635 |
Thesis Year: | 2002 |
Ying Ge is a Chinese-American chemist who is a Professor of Cell and Regenerative Biology at the University of Wisconsin–Madison. Her research considers the molecular mechanisms that underpin cardiac disease. She has previously served on the board of directors of the American Society for Mass Spectrometry. In 2020 Ge was named on the Analytical Scientist Power List.
Ge was born in China. She attended Peking University for her undergraduate studies, where she studied chemistry.[1] After graduating in 1997 Ge moved to the United States, where she joined Cornell University as a doctoral student. Here she started to work on mass spectrometry, using electron-capture dissociation to study proteins.[2] She worked under the supervision of Tadhg Begley and Fred McLafferty. After completing her doctorate, Ge worked as a research scientist at Wyeth.
Ge joined the University of Wisconsin–Madison as an assistant scientist, where she oversaw the mass spectrometry programme. She became an Associate Professor in 2015, and full Professor in 2019.[3]
Ge develops high-resolution mass spectrometry proteomics to better understand cardiac disease. To image the very large proteins of human heart tissue, Ge combines fourier-transform ion cyclotron resonance (FT–ICR) mass spectrometry with electron-capture dissociation.[4] She has worked to create a top-down disease proteomic platform that allows for the separation, detection and characterisation of the biomarkers of heart damage.
Nanoproteomics, a technique developed by Ge and co-workers, makes use of nanoparticles and high resolution mass spectrometry to capture and characterise cardiac troponins, including troponin I.[5] [6] Being able to test for and characterise troponin I would help with the early detection and diagnosis of heart disease.[7] The peptide-functionalised superparamagnetic nanoparticles are combined with top-down mass spectrometry to identify the molecular fingerprints of troponins. Rather than just detecting cardiac troponins, which is possible using ELISA-based antibody testing, this higher level of characterisation will allow Ge to identify various forms of modified troponins, allowing a personalised understanding of cardiac disease.
Ge served on the board of the Top-Down Proteomics Consortium,[8] on the editorial board of the Journal of Muscle Research and Cell Motility,[9] as treasurer for the American Society for Mass Spectrometry (2016-2018).[10]
Ying Ge publications indexed by Google Scholar.