A comparison of collision cross section values obtained via travelling wave ion mobility-mass spectrometry and ultra high performance liquid chromatography-ion mobility-mass spectrometry: Application to the characterisation of metabolites in rat urine
A comparison of collision cross section values obtained via travelling wave ion mobility-mass spectrometry and ultra high performance liquid chromatography-ion mobility-mass spectrometry: Application to the characterisation of metabolites in rat urine
A comprehensive Collision Cross Section (CCS) library was obtained via Travelling Wave Ion Guide mobility measurements through direct infusion (DI). The library consists of CCS and Mass Spectral (MS) data in negative and positive ElectroSpray Ionisation (ESI) mode for 463 and 479 endogenous metabolites, respectively. For both ionisation modes combined, TWCCSN2 data were obtained for 542 non-redundant metabolites. These data were acquired on two different ion mobility enabled orthogonal acceleration QToF MS systems in two different laboratories, with the majority of the resulting TWCCSN2 values (from detected compounds) found to be within 1% of one another. Validation of these results against two independent, external TWCCSN2 data sources and predicted TWCCSN2 values indicated to be within 1-2% of these other values. The same metabolites were then analysed using a rapid reversed-phase ultra (high) performance liquid chromatographic (U(H)PLC) separation combined with IM and MS (IM-MS) thus providing retention time (tr), m/z and TWCCSN2 values (with the latter compared with the DI-IM-MS data). Analytes for which TWCCSN2 values were obtained by U(H)PLC-IM-MS showed good agreement with the results obtained from DI-IM-MS. The repeatability of the TWCCSN2 values obtained for these metabolites on the different ion mobility QToF systems, using either DI or LC, encouraged the further evaluation of the U(H)PLC-IM-MS approach via the analysis of samples of rat urine, from control and methotrexate-treated animals, in order to assess the potential of the approach for metabolite identification and profiling in metabolic phenotyping studies. Based on the database derived from the standards 63 metabolites were identified in rat urine, using positive ESI, based on the combination of tr, TWCCSN2 and MS data.
Amines/analysis, Animals, Calibration, Chromatography, High Pressure Liquid/methods, Ion Mobility Spectrometry/methods, Machine Learning, Mass Spectrometry/methods, Metabolome, Rats, Reference Standards, Urine/chemistry
386-396
Nye, Leanne C
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Williams, Jonathan P.
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Munjoma, Nyasha C
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Letertre, Marine P M
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Coen, Muireann
a4ad37ca-ea2d-4353-a09b-098159e1e273
Bouwmeester, Robbin
a2f2b83c-6d01-4e50-bbc6-16b638936739
Martens, Lennart
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Swann, Jonathan R
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Nicholson, Jeremy K
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Plumb, Robert S
21da55b0-ef47-469d-9d0b-e2151cf83b53
McCullagh, Michael
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Gethings, Lee A
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Lai, Steven
2e6c10a3-94d3-4fcb-907e-1af6725b2fda
Langridge, James I
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Vissers, Johannes P C
ea9537cd-dc65-47b6-879a-49a1f4018ea1
Wilson, Ian D
d7da811b-6cc9-4166-82d0-e780c95122d2
27 September 2019
Nye, Leanne C
073d90d4-291d-4f74-8f56-b878cdca9010
Williams, Jonathan P.
4967982e-48b6-4847-9eac-ece05b001d32
Munjoma, Nyasha C
bec183c0-7a1e-4600-8610-93e91f46129a
Letertre, Marine P M
dac01b82-106d-4480-a123-7747c51dcf4e
Coen, Muireann
a4ad37ca-ea2d-4353-a09b-098159e1e273
Bouwmeester, Robbin
a2f2b83c-6d01-4e50-bbc6-16b638936739
Martens, Lennart
f651d0a2-2777-4bc8-ad41-8d9b9930b96f
Swann, Jonathan R
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Nicholson, Jeremy K
72991774-7e08-4592-ae57-e7dcc2ec158e
Plumb, Robert S
21da55b0-ef47-469d-9d0b-e2151cf83b53
McCullagh, Michael
536c5803-cef1-4d1f-a304-30539d309fdc
Gethings, Lee A
d506957f-d665-459b-9016-147666480932
Lai, Steven
2e6c10a3-94d3-4fcb-907e-1af6725b2fda
Langridge, James I
7c9eb4f9-c02b-4688-a802-abd96e537d31
Vissers, Johannes P C
ea9537cd-dc65-47b6-879a-49a1f4018ea1
Wilson, Ian D
d7da811b-6cc9-4166-82d0-e780c95122d2
Nye, Leanne C, Williams, Jonathan P., Munjoma, Nyasha C, Letertre, Marine P M, Coen, Muireann, Bouwmeester, Robbin, Martens, Lennart, Swann, Jonathan R, Nicholson, Jeremy K, Plumb, Robert S, McCullagh, Michael, Gethings, Lee A, Lai, Steven, Langridge, James I, Vissers, Johannes P C and Wilson, Ian D
(2019)
A comparison of collision cross section values obtained via travelling wave ion mobility-mass spectrometry and ultra high performance liquid chromatography-ion mobility-mass spectrometry: Application to the characterisation of metabolites in rat urine.
Journal of Chromatography A, 1602, .
(doi:10.1016/j.chroma.2019.06.056).
Abstract
A comprehensive Collision Cross Section (CCS) library was obtained via Travelling Wave Ion Guide mobility measurements through direct infusion (DI). The library consists of CCS and Mass Spectral (MS) data in negative and positive ElectroSpray Ionisation (ESI) mode for 463 and 479 endogenous metabolites, respectively. For both ionisation modes combined, TWCCSN2 data were obtained for 542 non-redundant metabolites. These data were acquired on two different ion mobility enabled orthogonal acceleration QToF MS systems in two different laboratories, with the majority of the resulting TWCCSN2 values (from detected compounds) found to be within 1% of one another. Validation of these results against two independent, external TWCCSN2 data sources and predicted TWCCSN2 values indicated to be within 1-2% of these other values. The same metabolites were then analysed using a rapid reversed-phase ultra (high) performance liquid chromatographic (U(H)PLC) separation combined with IM and MS (IM-MS) thus providing retention time (tr), m/z and TWCCSN2 values (with the latter compared with the DI-IM-MS data). Analytes for which TWCCSN2 values were obtained by U(H)PLC-IM-MS showed good agreement with the results obtained from DI-IM-MS. The repeatability of the TWCCSN2 values obtained for these metabolites on the different ion mobility QToF systems, using either DI or LC, encouraged the further evaluation of the U(H)PLC-IM-MS approach via the analysis of samples of rat urine, from control and methotrexate-treated animals, in order to assess the potential of the approach for metabolite identification and profiling in metabolic phenotyping studies. Based on the database derived from the standards 63 metabolites were identified in rat urine, using positive ESI, based on the combination of tr, TWCCSN2 and MS data.
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More information
Accepted/In Press date: 26 June 2019
e-pub ahead of print date: 27 June 2019
Published date: 27 September 2019
Keywords:
Amines/analysis, Animals, Calibration, Chromatography, High Pressure Liquid/methods, Ion Mobility Spectrometry/methods, Machine Learning, Mass Spectrometry/methods, Metabolome, Rats, Reference Standards, Urine/chemistry
Identifiers
Local EPrints ID: 444260
URI: http://eprints.soton.ac.uk/id/eprint/444260
ISSN: 0021-9673
PURE UUID: 8d9076aa-c4b4-40f6-a68e-0c7e1076d21a
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Date deposited: 06 Oct 2020 21:11
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
Leanne C Nye
Author:
Jonathan P. Williams
Author:
Nyasha C Munjoma
Author:
Marine P M Letertre
Author:
Muireann Coen
Author:
Robbin Bouwmeester
Author:
Lennart Martens
Author:
Jeremy K Nicholson
Author:
Robert S Plumb
Author:
Michael McCullagh
Author:
Lee A Gethings
Author:
Steven Lai
Author:
James I Langridge
Author:
Johannes P C Vissers
Author:
Ian D Wilson
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