Multiple reaction monitoring: Difference between revisions

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{{DefNotRec|
{{Final|acronym=(MRM)
This term is not recommended. See [[selected reaction monitoring]].
|def=Application of [[selected reaction monitoring]] to multiple [[product ion]]s from one or more [[precursor ion]]s.
:Note: This term should not be confused with [[consecutive reaction monitoring]], which involves the serial application of three or more stages of selected reaction monitoring.
|rel=
|ref=P. Roepstorff, J. Fohlman. Biomed. Mass Spectrom. 11, 601 (1984).
 
}}
}}


==Sparkman==
{{rm}}
{{incorrect|
Page 33:  confusion due to possible confusion between multiple stages of MS and multiple (parallel) reactions}}


==Related term==
==External links==
*[[Selected reaction monitoring]]
*Zakett, D.; Flynn, R. G. A.; Cooks, R. G. Chlorine Isotope Effects in Mass Spectrometry by Multiple Reaction Monitoring. ''J. Phys. Chem.'' 1978, '''82''', 2359-2362; {{doi}}10.1021/j100511a002
*Lange, V.; Picotti, P.; Domon, B.; Aebersold, R. Selected Reaction Monitoring for Quantitative Proteomics: a Tutorial. ''Mol Syst Biol'' 2008, '''4'''; {{doi}}10.1038/msb.2008.61 
*Sherman, J.; McKay, M. J.; Ashman, K.; Molloy, M. P. How Specific Is My SRM?: the Issue of Precursor and Product Ion Redundancy. ''Proteomics'' 2009, '''9''', 1120-1123; {{doi}}10.1002/pmic.200800577
*Elschenbroich, S.; Kislinger, T. Targeted Proteomics by Selected Reaction Monitoring Mass Spectrometry: Applications to Systems Biology and Biomarker Discovery. ''Mol. BioSyst.'' 2011, '''7''', 292-303; {{doi}}10.1039/c0mb00159g
*Bereman, M. S.; MacLean, B.; Tomazela, D. M.; Liebler, D. C.; MacCoss, M. J. The Development of Selected Reaction Monitoring Methods for Targeted Proteomics via Empirical Refinement; ''Proteomics'' 2012, '''12''', 1134-1141.{{doi}}10.1002/pmic.201200042
* Kinter, M.; Kinter, C. S. Application of Selected Reaction Monitoring to Highly Multiplexed Targeted Quantitative Proteomics; 2013; http://www.springer.com/978-1-4614-8665-7


[[Category:Reactions]]
[[Category:Reactions]]
[[Category:Reaction monitoring]]
{{DEFAULTSORT:Multiple Reaction Monitoring}}

Latest revision as of 15:36, 10 June 2021

IUPAC RECOMMENDATIONS 2013
Multiple reaction monitoring (MRM)
Application of selected reaction monitoring to multiple product ions from one or more precursor ions.
Note: This term should not be confused with consecutive reaction monitoring, which involves the serial application of three or more stages of selected reaction monitoring.
Related Term(s):
Reference(s):

P. Roepstorff, J. Fohlman. Biomed. Mass Spectrom. 11, 601 (1984).

From Definitions of Terms Relating to Mass Spectrometry (IUPAC Recommendations 2013); DOI: 10.1351/PAC-REC-06-04-06 © IUPAC 2013.

Index of Recommended Terms

 



IUPAC reaction monitoring terms

Term Acronym Definition Diagram Reference
Selected ion monitoring SIM Operation of a mass spectrometer in which the abundances of ions of one or more specific m/z values are recorded rather than the entire mass spectrum.      . Gold Book
Selected reaction monitoring SRM Data acquired from one or more specific product ions corresponding to m/z selected precursor ions recorded via two or more stages of mass spectrometry.
Note 1: Selected reaction monitoring in multiple-stage mass spectrometry is known as consecutive reaction monitoring.
Note 2: Selected reaction monitoring applied to multiple product ions from one or more precursor ions is known as multiple reaction monitoring.
de Hoffmann. J. Mass Spectrom. 31, 129 (1996).
Consecutive reaction monitoring CRM Multiple-stage mass spectrometry experiment with three or more stages of m/z separation in which products of sequential fragmentation or bimolecular reactions are selected for detection.
Tomer, Guenat, Deterding. Anal. Chem. 60, 2232 (1988).
Multiple reaction monitoring MRM Application of selected reaction monitoring to multiple product ions from one or more precursor ions.
Note: This term should not be confused with consecutive reaction monitoring, which involves the serial application of three or more stages of selected reaction monitoring.
Roepstorff, Fohlman. Biomed. Mass Spectrom. 11, 601 (1984).

External links

  • Zakett, D.; Flynn, R. G. A.; Cooks, R. G. Chlorine Isotope Effects in Mass Spectrometry by Multiple Reaction Monitoring. J. Phys. Chem. 1978, 82, 2359-2362; http://dx.doi.org/10.1021/j100511a002
  • Lange, V.; Picotti, P.; Domon, B.; Aebersold, R. Selected Reaction Monitoring for Quantitative Proteomics: a Tutorial. Mol Syst Biol 2008, 4; http://dx.doi.org/10.1038/msb.2008.61
  • Sherman, J.; McKay, M. J.; Ashman, K.; Molloy, M. P. How Specific Is My SRM?: the Issue of Precursor and Product Ion Redundancy. Proteomics 2009, 9, 1120-1123; http://dx.doi.org/10.1002/pmic.200800577
  • Elschenbroich, S.; Kislinger, T. Targeted Proteomics by Selected Reaction Monitoring Mass Spectrometry: Applications to Systems Biology and Biomarker Discovery. Mol. BioSyst. 2011, 7, 292-303; http://dx.doi.org/10.1039/c0mb00159g
  • Bereman, M. S.; MacLean, B.; Tomazela, D. M.; Liebler, D. C.; MacCoss, M. J. The Development of Selected Reaction Monitoring Methods for Targeted Proteomics via Empirical Refinement; Proteomics 2012, 12, 1134-1141.http://dx.doi.org/10.1002/pmic.201200042
  • Kinter, M.; Kinter, C. S. Application of Selected Reaction Monitoring to Highly Multiplexed Targeted Quantitative Proteomics; 2013; http://www.springer.com/978-1-4614-8665-7
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