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Abstract
The oxidation status of N-terminal cysteines directly dictates protein stability via arginylation and proteasomal degradation. However, only a handful of proteins have been shown to be regulated via this pathway. To date, no methods to detect N-terminal cysteine reactivity and abundance has been reported. Here, we demonstrate, for the first time, that N-terminal cysteine targeting probes can be used in living cells to bind and quantify N-terminal cysteines, discriminating their oxidation state. Using these probes, we identify hundreds of N-terminal cysteines and show that changes in reactivity and abundance under hypoxia can be directly detected. We believe the use of these types of probes will significantly expand our knowledge of this important proteolytic pathway.
Supplementary materials
Title
Supporting Information
Description
Supporting Figures and Tables. Organic synthesis procedures. Biological procedures.
Amino acid profiling and activity-based protein profiling procedures. Full length western blot membranes. References. NMR spectra.
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Supplementary weblinks
Title
NCys Chemoproteomics - Raw data
Description
Raw LC-MS/MS data files
Raw Western blots
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