Enzymatic reactions observed with zero- and low-field nuclear magnetic resonance
Enzymatic reactions observed with zero- and low-field nuclear magnetic resonance
We demonstrate that enzyme-catalyzed reactions can be observed in zero- and low-field NMR experiments by combining recent advances in parahydrogen-based hyperpolarization methods with state-of-the-art magnetometry. Specifically, we investigated two model biological processes: the conversion of fumarate into malate, which is used in vivo as a marker of cell necrosis, and the conversion of pyruvate into lactate, which is the most widely studied metabolic process in hyperpolarization-enhanced imaging. In addition to this, we constructed a microfluidic zero-field NMR setup to perform experiments on microliter-scale samples of [1-13C]fumarate in a lab-on-a-chip device. Zero- to ultralow-field (ZULF) NMR has two key advantages over high-field NMR: the signals can pass through conductive materials (e.g., metals), and line broadening from sample heterogeneity is negligible. To date, the use of ZULF NMR for process monitoring has been limited to studying hydrogenation reactions. In this work, we demonstrate this emerging analytical technique for more general reaction monitoring and compare zero- vs low-field detection.
Magnetic Resonance Spectroscopy/methods, Magnetic Resonance Imaging/methods, Hydrogenation, Pyruvic Acid/metabolism, Fumarates
17997-18005
Eills, James
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Picazo-Frutos, Román
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Bondar, Oksana
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Cavallari, Eleonora
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Carrera, Carla
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Barker, Sylwia J.
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Utz, Marcel
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Herrero-Gómez, Alba
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Marco-Rius, Irene
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Tayler, Michael C.D.
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Aime, Silvio
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Reineri, Francesca
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Budker, Dmitry
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Blanchard, John W.
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12 December 2023
Eills, James
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Picazo-Frutos, Román
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Bondar, Oksana
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Cavallari, Eleonora
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Carrera, Carla
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Barker, Sylwia J.
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Utz, Marcel
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Herrero-Gómez, Alba
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Marco-Rius, Irene
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Tayler, Michael C.D.
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Aime, Silvio
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Reineri, Francesca
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Budker, Dmitry
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Blanchard, John W.
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Eills, James, Picazo-Frutos, Román, Bondar, Oksana, Cavallari, Eleonora, Carrera, Carla, Barker, Sylwia J., Utz, Marcel, Herrero-Gómez, Alba, Marco-Rius, Irene, Tayler, Michael C.D., Aime, Silvio, Reineri, Francesca, Budker, Dmitry and Blanchard, John W.
(2023)
Enzymatic reactions observed with zero- and low-field nuclear magnetic resonance.
Analytical Chemistry, 95 (49), .
(doi:10.1021/acs.analchem.3c02087).
Abstract
We demonstrate that enzyme-catalyzed reactions can be observed in zero- and low-field NMR experiments by combining recent advances in parahydrogen-based hyperpolarization methods with state-of-the-art magnetometry. Specifically, we investigated two model biological processes: the conversion of fumarate into malate, which is used in vivo as a marker of cell necrosis, and the conversion of pyruvate into lactate, which is the most widely studied metabolic process in hyperpolarization-enhanced imaging. In addition to this, we constructed a microfluidic zero-field NMR setup to perform experiments on microliter-scale samples of [1-13C]fumarate in a lab-on-a-chip device. Zero- to ultralow-field (ZULF) NMR has two key advantages over high-field NMR: the signals can pass through conductive materials (e.g., metals), and line broadening from sample heterogeneity is negligible. To date, the use of ZULF NMR for process monitoring has been limited to studying hydrogenation reactions. In this work, we demonstrate this emerging analytical technique for more general reaction monitoring and compare zero- vs low-field detection.
Text
eills-et-al-2023-enzymatic-reactions-observed-with-zero-and-low-field-nuclear-magnetic-resonance
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More information
Accepted/In Press date: 11 September 2023
e-pub ahead of print date: 4 December 2023
Published date: 12 December 2023
Additional Information:
Funding Information: this project has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under the Marie Skłodowska-Curie Grant Agreement 766402, 101063517, and the FET-Open AlternativesToGd Proposal no. 858149. As well as by the DFG (Project ID 465084791). This work has been supported by an EPSRC iCASE studentship EP/R513325/1 to S.J.B., cofunded by Bruker UK Ltd.
Keywords:
Magnetic Resonance Spectroscopy/methods, Magnetic Resonance Imaging/methods, Hydrogenation, Pyruvic Acid/metabolism, Fumarates
Identifiers
Local EPrints ID: 486062
URI: http://eprints.soton.ac.uk/id/eprint/486062
ISSN: 0003-2700
PURE UUID: 0149b34c-65a9-461b-9f4d-338c1aec05bf
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Date deposited: 08 Jan 2024 17:38
Last modified: 18 Mar 2024 04:08
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Contributors
Author:
James Eills
Author:
Román Picazo-Frutos
Author:
Oksana Bondar
Author:
Eleonora Cavallari
Author:
Carla Carrera
Author:
Sylwia J. Barker
Author:
Alba Herrero-Gómez
Author:
Irene Marco-Rius
Author:
Michael C.D. Tayler
Author:
Silvio Aime
Author:
Francesca Reineri
Author:
Dmitry Budker
Author:
John W. Blanchard
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