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DIagonal Chromatography (COFRADIC, [ 5 ]). More recently,
the Overall lab and our lab have published positional proteomics
approaches that enable the enrichment of protein C-terminal pep-
tides which also serve as proxies for protease substrates, and thus
yield complementary information on proteolytic events [ 6 , 7 ].
The general N-terminal COFRADIC procedure is schemati-
cally depicted in Fig. 1. Briefl y, prior to digestion of the sampled
proteins with a specifi c protease such as trypsin, all primary amino
groups in proteins—N-terminal α-amino groups and lysine ε-amino
groups—are chemically blocked, for instance by butyrylation (e.g.,
[ 8 ]). Note that by using isotopic variants of butyric acid (here), this
essential step in the overall COFRADIC procedure allows for a
direct comparison of two samples. Because of the way that lysine is
chemically modifi ed, trypsin will now only cleave at arginine resi-
dues and essentially render two types of peptides; protein N-terminal
peptides, including neo-N-terminal peptides, carrying an acetylatedCell/tissue extractionReduction and alkylation of Cys residuesAcylation of protein α-amines (proteins) and ε-amines (Lys residues)Trypsin digestionSCX at low pHRP-HPLC fractionation of peptidesTNBS modification of internal and C-terminal peptidesRP-HPLC isolation of N-terminal peptides
Fig. 1 Schematic workfl ow of the N-terminal COFRADIC protocol. The steps not
outlined in this chapter are shown in greyLiana Tsiatsiani et al.http://www.ebook3000.com