Targeted mass spectrometry

Targeted mass spectrometry is a mass spectrometry technique that uses multiple stages of tandem mass spectrometry (MSn with n=2 or 3) for ions of specific mass (m/z), at specific time.[1] The values of the m/z and time are defined in an inclusion list which is derived from a previous analysis.

Applications

Targeted analysis allows the thorough analysis of all ions, at all abundance range above the noise level, at any time window in the experiment. In contrast, non-targeted analysis would, typically, only allow detection of the most abundant 50-100 ions over the entire experiment time. Such limitation of non-targeted analysis makes it less suitable for analyzing highly complex, highly dynamic sample such as human blood serum.[2]

However, the methods of utilizing targeted mass spectrometry are still at a primitive stage, in the sense that the inclusion list used in the targeted analysis is typically manually typed-in by scientists. In addition to that, only one inclusion list is allowed for the entire experiment. Such manual process is both labor-intensive and error-prone. This is largely due to the lack of software to control the mass spectrometer.

Automation

There have been some efforts in automating the generation of inclusion lists through the solution of external software. In 2010, Wu et al.[3] introduced a semi-automatic method in an effort of identifying low-abundance glyco-peptide. They implemented the automation through iterative experiments and the open-source software GLYPID.[4] With minor modification, this approach can used in analyzing any other simple or complex samples. In addition to the advantage mentioned before, this semi-automated approach also saves substantial amount of time and efforts for scientists in manually picking ions and re-calibrating instruments.

See also

References

  1. Chicooree, Navin; Unwin, Richard D.; Griffiths, John R. (2015). "The application of targeted mass spectrometry-based strategies to the detection and localization of post-translational modifications". Mass Spectrometry Reviews. 34 (6): 595–626. doi:10.1002/mas.21421. ISSN 0277-7037.
  2. Gillette, Michael A (2013). "Quantitative analysis of peptides and proteins in biomedicine by targeted mass spectrometry". Nat Meth. Nature Publishing Group. doi:10.1038/nmeth.2309.
  3. Yin Wu; Yehia Mechref; Iveta Klouckova; Anoop Mayampurath; Milos V. Novotny; Haixu Tang (2010). "Mapping site-specific protein N-glycosylations through liquid chromatography/mass spectrometry and targeted tandem mass spectrometry". Rapid Communications in Mass Spectrometry. John Wiley & Sons, Ltd. doi:10.1002/rcm.4474.
  4. "GlyPID". indiana.edu.
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