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Literature DB >> 21062032

Activated-ion electron transfer dissociation improves the ability of electron transfer dissociation to identify peptides in a complex mixture.

Aaron R Ledvina¹, Nicole A Beauchene, Graeme C McAlister, John E P Syka, Jae C Schwartz, Jens Griep-Raming, Michael S Westphall, Joshua J Coon.

Abstract

Using a modified electron transfer dissociation (ETD)-enabled quadrupole linear ion trap (QLT) mass spectrometer, we demonstrate the utility of IR activation concomitant with ETD ion-ion reactions (activated-ion ETD, AI-ETD). Analyzing 12 strong cation exchanged (SCX) fractions of a LysC digest of human cell protein extract using ETD, collision-activated dissociation (CAD), and AI-ETD, we find that AI-ETD generates 13 405 peptide spectral matches (PSMs) at a 1% false-discovery rate (1% FDR), surpassing both ETD (7 968) and CAD (10 904). We also analyze 12 SCX fractions of a tryptic digest of human cell protein extract and find that ETD produces 6 234 PSMs, AI-ETD 9 130 PSMs, and CAD 15 209 PSMs. Compared to ETD with supplemental collisional activation (ETcaD), AI-ETD generates ∼80% more PSMs for the whole cell lysate digested with trypsin and ∼50% more PSMs for the whole cell lysate digested with LysC.

Entities: CellLine Chemical Disease Gene Species

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Year: 2010 PMID： 21062032 PMCID： PMC3005528 DOI： 10.1021/ac1020358

Source DB: PubMed Journal: Anal Chem ISSN： 0003-2700 Impact factor: 6.986

40 in total

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5. Where Does the Electron Go? Stable and Metastable Peptide Cation Radicals Formed by Electron Transfer.

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