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iNrich, Rapid and Robust Method to Enrich N-Terminal Proteome in a Highly Multiplexed Platform

Shinyeong Ju, Yu Mi Kwon, Jeong‐Mok Kim, Daechan Park, Seonjeong Lee, Jin‐Won Lee, Cheol-Sang Hwang, Cheolju Lee

2020Analytical Chemistry33 citationsDOI

Abstract

The field of terminal proteomics is limited in that it is optimized for large-scale analysis via multistep processes involving liquid chromatography. Here, we present an integrated N-terminal peptide enrichment method (iNrich) that can handle as little as 25 μg of cell lysate via a single-stage encapsulated solid-phase extraction column. iNrich enables simple, rapid, and reproducible sample processing, treatment of a wide range of protein amounts (25 μg ∼ 1 mg), multiplexed parallel sample preparation, and in-stage sample prefractionation using a mixed-anion-exchange filter. We identified ∼5000 N-terminal peptides (Nt-peptides) from only 100 μg of human cell lysate including Nt-formyl peptides. Multiplexed sample preparation facilitated quantitative and robust enrichment of N-terminome with dozens of samples simultaneously. We further developed the method to incorporate isobaric tags such as a tandem mass tag (TMT) and used it to discover novel peptides during ER stress analysis. The iNrich facilitated high-throughput N-terminomics and degradomics at a low cost using commercially available reagents and apparatus, without requiring arduous procedures.

Topics & Concepts

ChemistryChromatographySample preparationLysisProteomeMultiplexingTandem mass spectrometryIsobaric labelingPeptideTandem mass tagMass spectrometryProteomicsSolid phase extractionQuantitative proteomicsBiochemistryComputer scienceProtein mass spectrometryGeneTelecommunicationsPeptidase Inhibition and AnalysisAdvanced Proteomics Techniques and ApplicationsChemical Synthesis and Analysis
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