Virtual decoupling to break the simplification versus resolution trade-off in nuclear magnetic resonance of complex metabolic mixtures

Charlier, Cyril; Cox, Neil; Prud'homme, Sophie Martine; Geffard, Alain; Nuzillard, Jean-Marc; Luy, Burkhard; Lippens, Guy

doi:https://doi.org/10.5194/mr-2-619-2021

Articles | Volume 2, issue 2

https://doi.org/10.5194/mr-2-619-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Geoffrey Bodenhausen Festschrift

https://doi.org/10.5194/mr-2-619-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 2, issue 2

Research article

|

10 Aug 2021

Research article |

| 10 Aug 2021

Virtual decoupling to break the simplification versus resolution trade-off in nuclear magnetic resonance of complex metabolic mixtures

Cyril Charlier, Neil Cox, Sophie Martine Prud'homme, Alain Geffard, Jean-Marc Nuzillard, Burkhard Luy, and Guy Lippens

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Cumulative views and downloads (calculated since 10 Jun 2021)

Month	HTML	PDF	XML	Total
Jun 2021	128	46	8	182
Jul 2021	77	28	7	112
Aug 2021	129	44	2	175
Sep 2021	41	34	5	80
Oct 2021	41	72	5	118
Nov 2021	44	46	6	96
Dec 2021	32	23	3	58
Jan 2022	29	27	2	58
Feb 2022	19	16	2	37
Mar 2022	16	18	0	34
Apr 2022	11	11	3	25
May 2022	10	13	0	23
Jun 2022	12	8	0	20
Jul 2022	15	5	0	20
Aug 2022	53	11	0	64
Sep 2022	23	17	1	41
Oct 2022	12	13	0	25
Nov 2022	12	9	0	21
Dec 2022	17	10	0	27
Jan 2023	20	25	1	46
Feb 2023	11	2	0	13
Mar 2023	18	8	0	26
Apr 2023	8	8	0	16
May 2023	15	9	1	25
Jun 2023	13	13	1	27
Jul 2023	9	11	0	20
Aug 2023	12	9	1	22
Sep 2023	11	8	0	19
Oct 2023	14	16	2	32
Nov 2023	16	3	0	19
Dec 2023	16	9	1	26
Jan 2024	10	15	0	25
Feb 2024	21	8	2	31
Mar 2024	8	17	1	26
Apr 2024	17	5	3	25
May 2024	12	12	1	25
Jun 2024	37	14	3	54
Jul 2024	27	11	1	39
Aug 2024	26	13	0	39
Sep 2024	47	8	4	59
Oct 2024	19	9	3	31
Nov 2024	5	0	5

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Short summary

The HSQC experiment developed by Bodenhausen and Ruben is a cornerstone for modern NMR. When used in the field of metabolomics, the common practice of decoupling in the proton dimension limits the acquisition time and hence the resolution. Here, we present a virtual decoupling method to maintain both spectral simplicity and resolution, and demonstrate how it increases information content with the zebra mussel metabolome as an example.

Virtual decoupling to break the simplification versus resolution trade-off in nuclear magnetic resonance of complex metabolic mixtures

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