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http://dx.doi.org/10.5012/bkcs.2012.33.10.3233

Protein Analysis Using a Combination of an Online Monolithic Trypsin Immobilized Enzyme Reactor and Collisionally-Activated Dissociation/Electron Transfer Dissociation Dual Tandem Mass Spectrometry  

Hwang, Hyo-Jin (Department of Chemistry, Sogang University)
Cho, Kun (Department of Chemistry, Sogang University)
Kim, Jin-Young (Division of Mass Spectrometry Research, Korea Basic Science Institute)
Kim, Young-Hwan (Division of Mass Spectrometry Research, Korea Basic Science Institute)
Oh, Han-Bin (Department of Chemistry, Sogang University)
Publication Information
Bulletin of the Korean Chemical Society / v.33, no.10, 2012 , pp. 3233-3240 More about this Journal
Abstract
We demonstrated the combined applications of online protein digestion using trypsin immobilized enzyme reactor (IMER) and dual tandem mass spectrometry with collisionally activated dissociation (CAD) and electron transfer dissociation (ETD) for tryptic peptides eluted through the trypsin-IMER. For the trypsin-IMER, the organic and inorganic hybrid monolithic material was used. By employing the trypsin-IMER, the long digestion time could be saved with little or no sacrifice of the digestion efficiency, which was demonstrated for standard protein samples. For three model proteins (cytochrome c, carbonic anhydrase, and bovine serum albumin), the tryptic peptides digested by the IMER were analyzed using LC-MS/MS with the dual application of CAD and ETD. As previously shown by others, the dual application of CAD and ETD increased the sequence coverage in comparison with CAD application only. In particular, ETD was very useful for the analysis of highly-protontated peptide cations, e.g., ${\geq}3+$. The combination approach provided the advantages of both trypsin-IMER and CAD/ETD dual tandem mass spectrometry applications, which are rapid digestion (i.e., 10 min), good digestion efficiency, online coupling of trypsin-IMER and liquid chromatography, and high sequence coverage.
Keywords
Electron transfer Dissociation (ETD); Collisionally activated dissociation (CAD); Trypsin-immobilization; Immobilized enzyme reactor (IMER); Monolithic reactor;
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