Identification of small molecules using accurate mass MS/MS search.

Journal: Mass spectrometry reviews
Published Date: Apr 24, 2017

Abstract

Tandem mass spectral library search (MS/MS) is the fastest way to correctly annotate MS/MS spectra from screening small molecules in fields such as environmental analysis, drug screening, lipid analysis, and metabolomics. The confidence in MS/MS-based annotation of chemical structures is impacted by instrumental settings and requirements, data acquisition modes including data-dependent and data-independent methods, library scoring algorithms, as well as post-curation steps. We critically discuss parameters that influence search results, such as mass accuracy, precursor ion isolation width, intensity thresholds, centroiding algorithms, and acquisition speed. A range of publicly and commercially available MS/MS databases such as NIST, MassBank, MoNA, LipidBlast, Wiley MSforID, and METLIN are surveyed. In addition, software tools including NIST MS Search, MS-DIAL, Mass Frontier, SmileMS, Mass++, and XCMS to perform fast MS/MS search are discussed. MS/MS scoring algorithms and challenges during compound annotation are reviewed. Advanced methods such as the in silico generation of tandem mass spectra using quantum chemistry and machine learning methods are covered. Community efforts for curation and sharing of tandem mass spectra that will allow for faster distribution of scientific discoveries are discussed.

Authors

  • Tobias Kind
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Hiroshi Tsugawa
    RIKEN Center for Sustainable Resource Science, Yokohama, Kanagawa, Japan.
  • Tomas Cajka
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Yan Ma
    Medical School of Chinese PLA, 100853 Beijing, China.
  • Zijuan Lai
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Sajjan S Mehta
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Gert Wohlgemuth
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Dinesh Kumar Barupal
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Megan R Showalter
    Genome Center, Metabolomics, UC Davis, Davis, California.
  • Masanori Arita
    RIKEN Center for Sustainable Resource Science, Yokohama, Kanagawa, Japan.
  • Oliver Fiehn
    University of California, One Shields Avenue, Davis, CA 95616, USA. Electronic address: ofiehn@ucdavis.edu.

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