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Anomeric memory of the glycosidic bond upon fragmentation and its consequences for carbohydrate sequencing

Author

Listed:
  • Baptiste Schindler

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon)

  • Loïc Barnes

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon)

  • Gina Renois

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon)

  • Christopher Gray

    (The University of Manchester)

  • Stéphane Chambert

    (Université de Lyon
    Université Lyon 1
    Laboratoire de Chimie Organique et Bioorganique, INSA Lyon, CNRS, UMR5246, ICBMS, Bât. J. Verne)

  • Sébastien Fort

    (Université de Grenoble Alpes, CERMAV
    CNRS, CERMAV)

  • Sabine Flitsch

    (The University of Manchester)

  • Claire Loison

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon)

  • Abdul-Rahman Allouche

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon)

  • Isabelle Compagnon

    (Université de Lyon
    Université Lyon 1
    Institut Lumière Matière, UMR5306 Université Lyon 1-CNRS, Université de Lyon
    Institut Universitaire de France IUF)

Abstract

Deciphering the carbohydrate alphabet is problematic due to its unique complexity among biomolecules. Strikingly, routine sequencing technologies—which are available for proteins and DNA and have revolutionised biology—do not exist for carbohydrates. This lack of structural tools is identified as a crucial bottleneck, limiting the full development of glycosciences and their considerable potential impact for the society. In this context, establishing generic carbohydrate sequencing methods is both a major scientific challenge and a strategic priority. Here we show that a hybrid analytical approach integrating molecular spectroscopy with mass spectrometry provides an adequate metric to resolve carbohydrate isomerisms, i.e the monosaccharide content, anomeric configuration, regiochemistry and stereochemistry of the glycosidic linkage. On the basis of the spectroscopic discrimination of MS fragments, we report the unexpected demonstration of the anomeric memory of the glycosidic bond upon fragmentation. This remarkable property is applied to de novo sequencing of underivatized oligosaccharides.

Suggested Citation

  • Baptiste Schindler & Loïc Barnes & Gina Renois & Christopher Gray & Stéphane Chambert & Sébastien Fort & Sabine Flitsch & Claire Loison & Abdul-Rahman Allouche & Isabelle Compagnon, 2017. "Anomeric memory of the glycosidic bond upon fragmentation and its consequences for carbohydrate sequencing," Nature Communications, Nature, vol. 8(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01179-y
    DOI: 10.1038/s41467-017-01179-y
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