Discovering Nature’s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers

Cajetan Neubauer; Kristýna Kantnerová; Alexis Lamothe; Joel Savarino; Andreas Hilkert; Dieter Juchelka; Kai Uwe Hinrichs; Marcus Elvert; Verena Heuer; Martin Elsner; Rani Bakkour; Maxime Julien; Merve Öztoprak; Stefan Schouten; Shohei Hattori; Thorsten Dittmar

doi:10.1021/jasms.2c00363

Discovering Nature’s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers

Cajetan Neubauer, Kristýna Kantnerová, Alexis Lamothe, Joel Savarino, Andreas Hilkert, Dieter Juchelka, Kai Uwe Hinrichs, Marcus Elvert, Verena Heuer, Martin Elsner, Rani Bakkour, Maxime Julien, Merve Öztoprak, Stefan Schouten, Shohei Hattori, Thorsten Dittmar

Chair of Analytical Chemistry and Water Chemistry

Research output: Contribution to journal › Review article › peer-review

20 Scopus citations

Abstract

For a generation or more, the mass spectrometry that developed at the frontier of molecular biology was worlds apart from isotope ratio mass spectrometry, a label-free approach done on optimized gas-source magnetic sector instruments. Recent studies show that electrospray-ionization Orbitraps and other mass spectrometers widely used in the life sciences can be fine-tuned for high-precision isotope ratio analysis. Since isotope patterns form everywhere in nature based on well-understood principles, intramolecular isotope measurements allow unique insights into a fascinating range of research topics. This Perspective introduces a wider readership to current topics in stable isotope research with the aim of discussing how soft-ionization mass spectrometry coupled with ultrahigh mass resolution can enable long-envisioned progress. We highlight novel prospects of observing isotopes in intact polar compounds and speculate on future directions of this adventure into the overlapping realms of biology, chemistry, and geology.

Original language	English
Pages (from-to)	525-537
Number of pages	13
Journal	Journal of the American Society for Mass Spectrometry
Volume	34
Issue number	4
DOIs	https://doi.org/10.1021/jasms.2c00363
State	Published - 5 Apr 2023

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Neubauer, C., Kantnerová, K., Lamothe, A., Savarino, J., Hilkert, A., Juchelka, D., Hinrichs, K. U., Elvert, M., Heuer, V., Elsner, M., Bakkour, R., Julien, M., Öztoprak, M., Schouten, S., Hattori, S., & Dittmar, T. (2023). Discovering Nature’s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers. Journal of the American Society for Mass Spectrometry, 34(4), 525-537. https://doi.org/10.1021/jasms.2c00363

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title = "Discovering Nature{\textquoteright}s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers",

abstract = "For a generation or more, the mass spectrometry that developed at the frontier of molecular biology was worlds apart from isotope ratio mass spectrometry, a label-free approach done on optimized gas-source magnetic sector instruments. Recent studies show that electrospray-ionization Orbitraps and other mass spectrometers widely used in the life sciences can be fine-tuned for high-precision isotope ratio analysis. Since isotope patterns form everywhere in nature based on well-understood principles, intramolecular isotope measurements allow unique insights into a fascinating range of research topics. This Perspective introduces a wider readership to current topics in stable isotope research with the aim of discussing how soft-ionization mass spectrometry coupled with ultrahigh mass resolution can enable long-envisioned progress. We highlight novel prospects of observing isotopes in intact polar compounds and speculate on future directions of this adventure into the overlapping realms of biology, chemistry, and geology.",

author = "Cajetan Neubauer and Krist{\'y}na Kantnerov{\'a} and Alexis Lamothe and Joel Savarino and Andreas Hilkert and Dieter Juchelka and Hinrichs, \{Kai Uwe\} and Marcus Elvert and Verena Heuer and Martin Elsner and Rani Bakkour and Maxime Julien and Merve {\"O}ztoprak and Stefan Schouten and Shohei Hattori and Thorsten Dittmar",

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Neubauer, C, Kantnerová, K, Lamothe, A, Savarino, J, Hilkert, A, Juchelka, D, Hinrichs, KU, Elvert, M, Heuer, V, Elsner, M, Bakkour, R, Julien, M, Öztoprak, M, Schouten, S, Hattori, S & Dittmar, T 2023, 'Discovering Nature’s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers', Journal of the American Society for Mass Spectrometry, vol. 34, no. 4, pp. 525-537. https://doi.org/10.1021/jasms.2c00363

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T2 - Isotope Ratio Analysis on Bioanalytical Mass Spectrometers

AU - Neubauer, Cajetan

AU - Kantnerová, Kristýna

AU - Lamothe, Alexis

AU - Savarino, Joel

AU - Hilkert, Andreas

AU - Juchelka, Dieter

AU - Hinrichs, Kai Uwe

AU - Elvert, Marcus

AU - Heuer, Verena

AU - Elsner, Martin

AU - Bakkour, Rani

AU - Julien, Maxime

AU - Öztoprak, Merve

AU - Schouten, Stefan

AU - Hattori, Shohei

AU - Dittmar, Thorsten

PY - 2023/4/5

Y1 - 2023/4/5

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AB - For a generation or more, the mass spectrometry that developed at the frontier of molecular biology was worlds apart from isotope ratio mass spectrometry, a label-free approach done on optimized gas-source magnetic sector instruments. Recent studies show that electrospray-ionization Orbitraps and other mass spectrometers widely used in the life sciences can be fine-tuned for high-precision isotope ratio analysis. Since isotope patterns form everywhere in nature based on well-understood principles, intramolecular isotope measurements allow unique insights into a fascinating range of research topics. This Perspective introduces a wider readership to current topics in stable isotope research with the aim of discussing how soft-ionization mass spectrometry coupled with ultrahigh mass resolution can enable long-envisioned progress. We highlight novel prospects of observing isotopes in intact polar compounds and speculate on future directions of this adventure into the overlapping realms of biology, chemistry, and geology.

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Discovering Nature’s Fingerprints: Isotope Ratio Analysis on Bioanalytical Mass Spectrometers

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