Top-down approaches for measuring expression ratios of intact yeast proteins using Fourier transform mass spectrometry

Yi Du, Bryan A. Parks, Seyoung Sohn, Kurt E. Kwast, Neil L. Kelleher*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

65 Scopus citations


The extension of quantitation methods for small peptides to ions above 5 kDa, and eventually to global quantitative proteomics of intact proteins, will require extensive refinement of current analytical approaches. Here we evaluate postgrowth Cys-labeling and 14N/15N metabolic labeling strategies for determination of relative protein expression levels and their posttranslational modifications using top-down mass spectrometry (MS). We show that intact proteins that are differentially alkylated with acrylamide (+71 Da) versus iodoacetamide (+57 Da) have substantial chromatographic shifts during reversed-phase liquid chromatography separation (particularly in peak tails), indicating a requirement for stable isotopes in alkylation tags for top-down MS. In the 14N/15N metabolic labeling strategy, we achieve 98% 15N incorporation in yeast grown 10 generations under aerobic conditions and determine 50 expression ratios using Fourier transform ion cyclotron resonance MS in comparing these cells to anaerobically grown control (14N) cells. We devise quantitative methods for top-down analyses, including a correction factor for accurate protein ratio determination based upon the signal-to-noise ratio. Using a database of 200 yeast protein forms identified previously by top-down MS, we verify the intact mass tag concept for protein identification without tandem MS. Overall, we find that top-down MS promises work flows capable of large-scale proteome profiling using stable isotope labeling and the determination of >5 protein ratios per spectrum.

Original languageEnglish (US)
Pages (from-to)686-694
Number of pages9
JournalAnalytical Chemistry
Issue number3
StatePublished - Feb 1 2006

ASJC Scopus subject areas

  • Analytical Chemistry


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