Peptide map procedure using immobilized protease cartridges in tandem for disulfide linkage identification of neu differentiation factor epidermal growth factor domain

Abstract

Immobilized proteolytic enzyme cartridges were used to rapidly digest neu differentiation factor EGF domain in order to obtain improved peptide maps useful for assignment of disulfide linkages. The procedure described here involves an on-line digestion of proteins using immobilized trypsin and endoproteinase Glu-C cartridges connected in series, followed by on-line RP-HPLC separation of the peptides. The entire process can be automated using a commercially available workstation; and the total time required for both proteolytic digestion and the HPLC separation can be shortened to within 1 h. Using these immobilized columns, we demonstrated that disulfide structure assignment of the EGF domains of recombinant human neu differentiation factor can be performed by isolation of individual disulfide-containing peptides followed by assignment of disulfide linkages with prompt fragmentation of peptides using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. The use of immobilized protease cartridges in tandem eliminates undesirable digestion artifacts associated with longer digestion time and higher protease-to-substrate ratio and results in the development of a reproducible and high quality peptide map.