Accurate mass measurement is essential for metabolite identification in the field of mass spectrometry (MS) based metabolomics, since many unidentified peak signals are being resolved by mass-to-mass matching to reference databases. Contrary to studies focused on the mass accuracy of MS instruments done in the past, which had a limited scope, the method presented here uses a much larger amount of data to build a model which predicts MS mass accuracy as a function of the two most influential parameters, namely: the mass value and the peak intensity. The widely used Synapt qTOF-MS instrument was chosen to demonstrate the method. The output model gives the analytical chemist an option to estimate the mass measurement accuracy on a peak-by-peak basis. We demonstrate that this can lead to a better performance in untargeted metabolite annotation scenario.
Shahaf, N.; Franceschi, P.; Arapitsas, P.; Rogachev, I.; Vrhovsek, U.; Wehrens, H.R.M.J. (2012). Constructing a mass accuracy surface to improve automatic annotation in LC-MS based metabolomics. In: ECCB'12: 11th European Conference on Computational Biology, Basel, Switzerland, 9-12 September 2012. url: http://www.eccb12.org/posters handle: http://hdl.handle.net/10449/22026
Constructing a mass accuracy surface to improve automatic annotation in LC-MS based metabolomics
Shahaf, Nir;Franceschi, Pietro;Arapitsas, Panagiotis;Vrhovsek, Urska;Wehrens, Herman Ronald Maria Johan
2012-01-01
Abstract
Accurate mass measurement is essential for metabolite identification in the field of mass spectrometry (MS) based metabolomics, since many unidentified peak signals are being resolved by mass-to-mass matching to reference databases. Contrary to studies focused on the mass accuracy of MS instruments done in the past, which had a limited scope, the method presented here uses a much larger amount of data to build a model which predicts MS mass accuracy as a function of the two most influential parameters, namely: the mass value and the peak intensity. The widely used Synapt qTOF-MS instrument was chosen to demonstrate the method. The output model gives the analytical chemist an option to estimate the mass measurement accuracy on a peak-by-peak basis. We demonstrate that this can lead to a better performance in untargeted metabolite annotation scenario.
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