Evaluation of double‐tuned single‐sided planar microcoils for the analysis of small 13C enriched biological samples using 1H‐13C 2D heteronuclear correlation NMR spectroscopy

Evaluation of double‐tuned single‐sided planar microcoils for the analysis of small 13C enriched biological samples using 1H‐13C 2D heteronuclear correlation NMR spectroscopy

Microcoils provide a cost‐effective approach to improve detection limits for mass‐limited samples. Single‐sided planar microcoils are advantageous in comparison to volume coils, in that the sample can simply be placed on top. However, the considerable drawback is that the RF field that is produced b...

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Veröffentlicht in:Magnetic resonance in chemistry 2022-03, Vol.60 (3), p.386-397
Hauptverfasser: Moxley‐Paquette, Vincent, Wu, Bing, Lane, Daniel, Bastawrous, Monica, Ning, Paris, Soong, Ronald, De Castro, Peter, Kovacevic, Ivan, Frei, Thomas, Stuessi, Juerg, Al Adwan‐Stojilkovic, Danijela, Graf, Stephan, Vincent, Franck, Schmidig, Daniel, Kuehn, Till, Kuemmerle, Rainer, Beck, Armin, Fey, Michael, Bermel, Wolfgang, Busse, Falko, Gundy, Marcel, Boenisch, Holger, Heumann, Hermann, Nashman, Ben, Dutta Majumdar, Rudraksha, Lacerda, Andressa, Simpson, André J.
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Sprache:eng
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13C enriched mass limited biological samples
Biological properties
Broccoli
Coils
Enrichment
heteronuclear 2D NMR
Line broadening
Magnetic permeability
Metabolites
NMR spectroscopy
Sensitivity
surface microcoils
Two dimensional analysis
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container_end_page 397
container_issue 3
container_start_page 386
container_title Magnetic resonance in chemistry
container_volume 60
creator Moxley‐Paquette, Vincent
Wu, Bing
Lane, Daniel
Bastawrous, Monica
Ning, Paris
Soong, Ronald
De Castro, Peter
Kovacevic, Ivan
Frei, Thomas
Stuessi, Juerg
Al Adwan‐Stojilkovic, Danijela
Graf, Stephan
Vincent, Franck
Schmidig, Daniel
Kuehn, Till
Kuemmerle, Rainer
Beck, Armin
Fey, Michael
Bermel, Wolfgang
Busse, Falko
Gundy, Marcel
Boenisch, Holger
Heumann, Hermann
Nashman, Ben
Dutta Majumdar, Rudraksha
Lacerda, Andressa
Simpson, André J.
description Microcoils provide a cost‐effective approach to improve detection limits for mass‐limited samples. Single‐sided planar microcoils are advantageous in comparison to volume coils, in that the sample can simply be placed on top. However, the considerable drawback is that the RF field that is produced by the coil decreases with distance from the coil surface, which potentially limits more complex multi‐pulse NMR pulse sequences. Unfortunately, 1H NMR alone is not very informative for intact biological samples due to line broadening caused by magnetic susceptibility distortions, and 1H‐13C 2D NMR correlations are required to provide the additional spectral dispersion for metabolic assignments in vivo or in situ. To our knowledge, double‐tuned single‐sided microcoils have not been applied for the 2D 1H‐13C analysis of intact 13C enriched biological samples. Questions include the following: Can 1H‐13C 2D NMR be performed on single‐sided planar microcoils? If so, do they still hold sensitivity advantages over conventional 5 mm NMR technology for mass limited samples? Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna (water fleas). Compared to 5 mm NMR probes, the microcoils showed a sixfold improvement in mass sensitivity (albeit only for a small localized region) and allowed for the identification of metabolites in a single intact D. magna for the first time. Single‐sided planar microcoils show practical benefit for 1H‐13C NMR of intact biological samples, if localized information within ~0.7 mm of the 1 mm I.D. planar microcoil surface is of specific interest. Single‐sided planar microcoils offer versatile sample placement but suffer from decreasing B1 field with distance, potentially limiting complex multi‐pulse NMR sequences. Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna. Compared to 5 mm NMR probes, the microcoil showed a sixfold improvement in mass sensitivity (albeit only for a small localized region) and allowed for the identification of metabolites in a single intact D. magna.
doi_str_mv 10.1002/mrc.5227
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Single‐sided planar microcoils are advantageous in comparison to volume coils, in that the sample can simply be placed on top. However, the considerable drawback is that the RF field that is produced by the coil decreases with distance from the coil surface, which potentially limits more complex multi‐pulse NMR pulse sequences. Unfortunately, 1H NMR alone is not very informative for intact biological samples due to line broadening caused by magnetic susceptibility distortions, and 1H‐13C 2D NMR correlations are required to provide the additional spectral dispersion for metabolic assignments in vivo or in situ. To our knowledge, double‐tuned single‐sided microcoils have not been applied for the 2D 1H‐13C analysis of intact 13C enriched biological samples. Questions include the following: Can 1H‐13C 2D NMR be performed on single‐sided planar microcoils? If so, do they still hold sensitivity advantages over conventional 5 mm NMR technology for mass limited samples? Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna (water fleas). Compared to 5 mm NMR probes, the microcoils showed a sixfold improvement in mass sensitivity (albeit only for a small localized region) and allowed for the identification of metabolites in a single intact D. magna for the first time. Single‐sided planar microcoils show practical benefit for 1H‐13C NMR of intact biological samples, if localized information within ~0.7 mm of the 1 mm I.D. planar microcoil surface is of specific interest. Single‐sided planar microcoils offer versatile sample placement but suffer from decreasing B1 field with distance, potentially limiting complex multi‐pulse NMR sequences. Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna. 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Single‐sided planar microcoils are advantageous in comparison to volume coils, in that the sample can simply be placed on top. However, the considerable drawback is that the RF field that is produced by the coil decreases with distance from the coil surface, which potentially limits more complex multi‐pulse NMR pulse sequences. Unfortunately, 1H NMR alone is not very informative for intact biological samples due to line broadening caused by magnetic susceptibility distortions, and 1H‐13C 2D NMR correlations are required to provide the additional spectral dispersion for metabolic assignments in vivo or in situ. To our knowledge, double‐tuned single‐sided microcoils have not been applied for the 2D 1H‐13C analysis of intact 13C enriched biological samples. Questions include the following: Can 1H‐13C 2D NMR be performed on single‐sided planar microcoils? If so, do they still hold sensitivity advantages over conventional 5 mm NMR technology for mass limited samples? Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna (water fleas). Compared to 5 mm NMR probes, the microcoils showed a sixfold improvement in mass sensitivity (albeit only for a small localized region) and allowed for the identification of metabolites in a single intact D. magna for the first time. Single‐sided planar microcoils show practical benefit for 1H‐13C NMR of intact biological samples, if localized information within ~0.7 mm of the 1 mm I.D. planar microcoil surface is of specific interest. Single‐sided planar microcoils offer versatile sample placement but suffer from decreasing B1 field with distance, potentially limiting complex multi‐pulse NMR sequences. Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna. 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Single‐sided planar microcoils are advantageous in comparison to volume coils, in that the sample can simply be placed on top. However, the considerable drawback is that the RF field that is produced by the coil decreases with distance from the coil surface, which potentially limits more complex multi‐pulse NMR pulse sequences. Unfortunately, 1H NMR alone is not very informative for intact biological samples due to line broadening caused by magnetic susceptibility distortions, and 1H‐13C 2D NMR correlations are required to provide the additional spectral dispersion for metabolic assignments in vivo or in situ. To our knowledge, double‐tuned single‐sided microcoils have not been applied for the 2D 1H‐13C analysis of intact 13C enriched biological samples. Questions include the following: Can 1H‐13C 2D NMR be performed on single‐sided planar microcoils? If so, do they still hold sensitivity advantages over conventional 5 mm NMR technology for mass limited samples? Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna (water fleas). Compared to 5 mm NMR probes, the microcoils showed a sixfold improvement in mass sensitivity (albeit only for a small localized region) and allowed for the identification of metabolites in a single intact D. magna for the first time. Single‐sided planar microcoils show practical benefit for 1H‐13C NMR of intact biological samples, if localized information within ~0.7 mm of the 1 mm I.D. planar microcoil surface is of specific interest. Single‐sided planar microcoils offer versatile sample placement but suffer from decreasing B1 field with distance, potentially limiting complex multi‐pulse NMR sequences. Here, 2D 1H‐13C HSQC, HMQC, and HETCOR variants were compared and then applied to 13C enriched broccoli seeds and Daphnia magna. 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subjects 13C enriched mass limited biological samples
Biological properties
Broccoli
Coils
Enrichment
heteronuclear 2D NMR
Line broadening
Magnetic permeability
Metabolites
NMR spectroscopy
Sensitivity
surface microcoils
Two dimensional analysis
title Evaluation of double‐tuned single‐sided planar microcoils for the analysis of small 13C enriched biological samples using 1H‐13C 2D heteronuclear correlation NMR spectroscopy
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