Thomson (unit)

thomson
Unit of Mass-to-charge ratio
Symbol Th
Named after J. J. Thomson

The thomson (symbol: Th) is a unit that has appeared infrequently in scientific literature relating to the field of mass spectrometry as a unit of mass-to-charge ratio. The unit was proposed by Cooks and Rockwood[1] naming it in honour of J. J. Thomson who measured the mass-to-charge ratio of electrons and ions.

Definition

The thomson is defined as[2]

where u represents the unified atomic mass unit, Da represents the unit dalton, and e represents the elementary charge which is the electric charge unit in the atomic unit system.

For example, the ion C7H72+ has a mass of 91 Da. Its charge number is +2, and hence its charge is 2e. The ion will be observed at 45.5 Th in a mass spectrum.

The thomson allows for negative values for negatively charged ions. For example, the benzoate anion would be observed not at m/z 121, but at −121 Th since the charge is −e.

Use

The thomson has been used by some mass spectrometrists, for example Alexander Makarov—the inventor of the Orbitrap—in a scientific poster,[3] papers,[4][5] and (notably) one book.[2] The journal Rapid Communications in Mass Spectrometry (in which the original article appeared) states that "the Thomson (Th) may be used for such purposes as a unit of mass-to-charge ratio although it is not currently approved by IUPAP or IUPAC."[6] Even so, the term has been called "controversial" by RCM's former Editor-in Chief[7] (in a review the Hoffman text cited above[2]). The book, Mass Spectrometry Desk Reference, argues against the use of the thomson.[8] However, the editor-in-chief of the Journal of the Mass Spectrometry Society of Japan has written an editorial in support of the thomson unit.[9]

The thomson is not an SI unit, nor has it been defined by IUPAC.

Since 2013, the Thomson is deprecated by IUPAC (Definitions of Terms Relating to Mass Spectrometry).[10][11] Since 2014 Rapid Communications in Mass Spectrometry regards the Thomson as a "Term that should be avoided in mass spectrometry publications."[12]

References

  1. Cooks, R. G.; A. L. Rockwood (1991). "The 'Thomson'. A suggested unit for mass spectroscopists". Rapid Communications in Mass Spectrometry. 5 (2): 93.
  2. 1 2 3 Stroobant, Vincent; Hoffmann, Edmond de; Charette, Jean Joseph (1996). Mass spectrometry: principles and applications. New York: Wiley. ISBN 978-0-471-96696-8.
  3. The Orbitrap: a novel high-performance electrostatic trap (ASMS)
  4. Pakenham G, Lango J, Buonarati M, Morin D, Buckpitt A (2002). "Urinary naphthalene mercapturates as biomarkers of exposure and stereoselectivity of naphthalene epoxidation". Drug Metab. Dispos. 30 (3): 247–53. doi:10.1124/dmd.30.3.247. PMID 11854141.
  5. Mengel-Jørgensen J, Kirpekar F (2002). "Detection of pseudouridine and other modifications in tRNA by cyanoethylation and MALDI mass spectrometry". Nucleic Acids Res. 30 (23): 135e–135. doi:10.1093/nar/gnf135. PMC 137990. PMID 12466567.
  6. "Rapid Communications in Mass Spectrometry Instructions to Authors". Wiley Interscience. Retrieved 2007-12-03.
  7. Boyd, Robert K. (4 December 1998). "ISBN". Rapid Communications in Mass Spectrometry. 11 (8): 948. doi:10.1002/(SICI)1097-0231(199705)11:8<948::AID-RCM2033>3.0.CO;2-I. templatestyles stripmarker in |title= at position 131 (help)
  8. Sparkman, O. David (2000). Mass spectrometry desk reference. Pittsburgh: Global View Pub. ISBN 978-0-9660813-2-9.
  9. Yoshino, Ken-Ichi (2007). "Comments on Abscissa Labeling of Mass Spectra". Journal of the Mass Spectrometry Society of Japan. 55 (1): 51–61. doi:10.5702/massspec.55.51. Archived from the original on 2011-08-14. Retrieved 2007-12-05.
  10. Murray, Kermit K.; Boyd, Robert K.; Eberlin, Marcos N.; Langley, G. John; Li, Liang; Naito, Yasuhide (2013). "Definitions of terms relating to mass spectrometry (IUPAC Recommendations 2013)". Pure and Applied Chemistry. 85 (7): 1515–1609. doi:10.1351/PAC-REC-06-04-06.
  11. http://mass-spec.lsu.edu/msterms/index.php/Thomson
  12. Volmer, Dietrich A. (2014). "Terms and acronyms that should be avoided in mass spectrometry publications". Rapid Communications in Mass Spectrometry. 28 (17): 1853–1854. doi:10.1002/rcm.6979. PMID 25088128.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.