Fine optimization of a dissolution dynamic nuclear polarization experimental setting for <sup>13</sup>C NMR of metabolic samples

Dey, Arnab; Charrier, Benoît; Lemaitre, Karine; Ribay, Victor; Eshchenko, Dmitry; Schnell, Marc; Melzi, Roberto; Stern, Quentin; Cousin, Samuel F.; Kempf, James G.; Jannin, Sami; Dumez, Jean-Nicolas; Giraudeau, Patrick

doi:https://doi.org/10.5194/mr-3-183-2022

Articles | Volume 3, issue 2

https://doi.org/10.5194/mr-3-183-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/mr-3-183-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 3, issue 2

Research article

|

29 Sep 2022

Research article |

| 29 Sep 2022

Fine optimization of a dissolution dynamic nuclear polarization experimental setting for ¹³C NMR of metabolic samples

Arnab Dey, Benoît Charrier, Karine Lemaitre, Victor Ribay, Dmitry Eshchenko, Marc Schnell, Roberto Melzi, Quentin Stern, Samuel F. Cousin, James G. Kempf, Sami Jannin, Jean-Nicolas Dumez, and Patrick Giraudeau

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Nov 2022	58	24	0	82
Dec 2022	29	12	1	42
Jan 2023	23	9	0	32
Feb 2023	26	24	1	51
Mar 2023	30	17	0	47
Apr 2023	16	18	0	34
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Nov 2023	14	4	0	18
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Jan 2024	20	9	0	29
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Mar 2024	34	32	0	66
Apr 2024	54	7	3	64

Cumulative views and downloads (calculated since 15 Jul 2022)

Month	HTML	PDF	XML	Total
Jul 2022	166	46	11	223
Aug 2022	84	22	1	107
Sep 2022	134	32	5	171
Oct 2022	169	44	1	214
Nov 2022	58	24	0	82
Dec 2022	29	12	1	42
Jan 2023	23	9	0	32
Feb 2023	26	24	1	51
Mar 2023	30	17	0	47
Apr 2023	16	18	0	34
May 2023	21	16	1	38
Jun 2023	22	18	2	42
Jul 2023	23	13	0	36
Aug 2023	17	24	1	42
Sep 2023	19	13	1	33
Oct 2023	28	14	2	44
Nov 2023	14	4	0	18
Dec 2023	14	14	1	29
Jan 2024	20	9	0	29
Feb 2024	15	12	1	28
Mar 2024	34	32	0	66
Apr 2024	54	7	3	64

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Short summary

Nuclear magnetic resonance (NMR) is a great tool for analytical chemistry, but it is not the most sensitive one. This work aims to develop a sensitive and repeatable workflow for the analysis of complex samples by hyperpolarized ¹³C NMR. Through systematic and careful optimization of experimental parameters, we were able to achieve unprecedented sensitivity for the analysis of naturally abundant metabolite mixtures while maintaining the precision required for metabolomic studies.

Fine optimization of a dissolution dynamic nuclear polarization experimental setting for ¹³C NMR of metabolic samples

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Fine optimization of a dissolution dynamic nuclear polarization experimental setting for 13C NMR of metabolic samples

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Fine optimization of a dissolution dynamic nuclear polarization experimental setting for ¹³C NMR of metabolic samples