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Proteomics Using Protease Alternatives to Trypsin Benefits from Sequential Digestion with Trypsin

Therese Dau, Giulia Bartolomucci, Juri Rappsilber

2020Analytical Chemistry107 citationsDOIOpen Access PDF

Abstract

whole cell lysates. The specificity of the protease heavily impacted the number of proteins identified. Proteases with higher specificity led to the identification of more proteins than proteases with lower specificity. However, AspN, GluC, chymotrypsin, and proteinase K largely benefited from being paired with trypsin in sequential digestion, as had been shown by us for elastase before. In the most extreme case, predigesting with trypsin improves the number of identified proteins for proteinase K by 731%. Trypsin predigestion also improved the protein identifications of other proteases, AspN (+62%), GluC (+80%), and chymotrypsin (+21%). Interestingly, the sequential digest with trypsin and AspN yielded even a higher number of protein identifications than digesting with trypsin alone.

Topics & Concepts

TrypsinProteasesChemistryProteaseBiochemistryChymotrypsinProteomicsEnzymeProteolysisGeneAdvanced Proteomics Techniques and ApplicationsProtein purification and stabilityMass Spectrometry Techniques and Applications