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Genome-scale proteome quantification by DEEP SEQ mass spectrometry

Author

Listed:
  • Feng Zhou

    (Dana-Farber Cancer Institute
    Harvard Medical School)

  • Yu Lu

    (Dana-Farber Cancer Institute
    Harvard Medical School)

  • Scott B. Ficarro

    (Dana-Farber Cancer Institute
    Harvard Medical School
    Blais Proteomics Center, Dana-Farber Cancer Institute)

  • Guillaume Adelmant

    (Dana-Farber Cancer Institute
    Harvard Medical School
    Blais Proteomics Center, Dana-Farber Cancer Institute)

  • Wenyu Jiang

    (Brigham and Women’s Hospital)

  • C. John Luckey

    (Brigham and Women’s Hospital)

  • Jarrod A. Marto

    (Dana-Farber Cancer Institute
    Harvard Medical School
    Blais Proteomics Center, Dana-Farber Cancer Institute)

Abstract

Advances in chemistry and massively parallel detection underlie DNA-sequencing platforms that are poised for application in personalized medicine. In stark contrast, systematic generation of protein-level data lags well behind genomics in virtually every aspect: depth of coverage, throughput, ease of sample preparation and experimental time. Here, to bridge this gap, we develop an approach based on simple detergent lysis and single-enzyme digest, extreme, orthogonal separation of peptides and true nanoflow liquid chromatography-tandem mass spectrometry that provides high peak capacity and ionization efficiency. This automated, deep efficient peptide sequencing and quantification mass spectrometry platform provides genome-scale proteome coverage equivalent to RNA-seq ribosomal profiling and accurate quantification for multiplexed isotope labels. In a model of the embryonic to epiblast transition in murine stem cells, we unambiguously quantify 11,352 gene products that span 70% of Swiss-Prot and capture protein regulation across the full detectable range of high-throughput gene expression and protein translation.

Suggested Citation

  • Feng Zhou & Yu Lu & Scott B. Ficarro & Guillaume Adelmant & Wenyu Jiang & C. John Luckey & Jarrod A. Marto, 2013. "Genome-scale proteome quantification by DEEP SEQ mass spectrometry," Nature Communications, Nature, vol. 4(1), pages 1-11, October.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3171
    DOI: 10.1038/ncomms3171
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    Cited by:

    1. Gerard Llimos & Vincent Gardeux & Ute Koch & Judith F. Kribelbauer & Antonina Hafner & Daniel Alpern & Joern Pezoldt & Maria Litovchenko & Julie Russeil & Riccardo Dainese & Riccardo Moia & Abdurraouf, 2022. "A leukemia-protective germline variant mediates chromatin module formation via transcription factor nucleation," Nature Communications, Nature, vol. 13(1), pages 1-21, December.
    2. Joel I. Perez-Perri & Dunja Ferring-Appel & Ina Huppertz & Thomas Schwarzl & Sudeep Sahadevan & Frank Stein & Mandy Rettel & Bruno Galy & Matthias W. Hentze, 2023. "The RNA-binding protein landscapes differ between mammalian organs and cultured cells," Nature Communications, Nature, vol. 14(1), pages 1-20, December.

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