Reversible protein phosphorylation regulates essentially all cellular activities. Aberrant protein phosphorylation is an etiological factor in a wide array of diseases, including cancer1, diabetes2, and Alzheimer’s3. Given the broad impact of protein phosphorylation on cellular biology and organismal health, understanding how protein phosphorylation is regulated and the consequences of gain and loss of phosphoryl moieties from proteins is of primary importance. Advances in instrumentation, particularly in mass spectrometry, coupled with high throughput approaches have recently yielded large datasets cataloging tens of thousands of protein phosphorylation sites in multiple organisms4-6. While these studies are seminal in term of data collection, our understanding of protein phosphorylation regulation remains largely one-dimensional.
Revised: January 17, 2017 |
Published: November 3, 2016
Citation
Li X., J.T. Cox, W. Huang, M. Kane, K. Tang, and C.J. Bieberich. 2016.Quantifying Kinase-specific Phosphorylation Stoichiometry Using Stable Isotope Labeling In a Reverse In-gel Kinase Assay.Analytical Chemistry 88, no. 23:11468-11475.PNNL-SA-102976.doi:10.1021/acs.analchem.6b02599