Quantitative Analytical and Computational Workflow for Large-Scale Targeted Plasma Metabolomics

Fecke, Antonia; Saw, Nay Min Min Thaw; Kale, Dipali; Kasarla, Siva Swapna; Sickmann, Albert; Phapale, Prasad

doi:10.3390/metabo13070844

Metabolites

2023

DOI: 10.3390/metabo13070844

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Quantitative Analytical and Computational Workflow for Large-Scale Targeted Plasma Metabolomics

Antonia Fecke,

Nay Min Min Thaw Saw,

Dipali Kale

et al.

Abstract: Quantifying metabolites from various biological samples is necessary for the clinical and biomedical translation of metabolomics research. One of the ongoing challenges in biomedical metabolomics studies is the large-scale quantification of targeted metabolites, mainly due to the complexity of biological sample matrices. Furthermore, in LC-MS analysis, the response of compounds is influenced by their physicochemical properties, chromatographic conditions, eluent composition, sample preparation, type of MS ioni… Show more

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2024

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Cited by 3 publications

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EMBL-MCF 2.0: an LC-MS/MS method and corresponding library for high-confidence targeted and untargeted metabolomics using low-adsorption HILIC chromatography

Dekina,

Alexandrov,

Drotleff

2024

Metabolomics

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Introduction Over the past two decades, liquid chromatography-mass spectrometry (LC-MS)-based metabolomics has experienced significant growth, playing a crucial role in various scientific disciplines. However, despite these advance-ments, metabolite identification (MetID) remains a significant challenge. To address this, stringent MetID requirements were established, emphasizing the necessity of aligning experimental data with authentic reference standards using multiple criteria. Establishing dependable methods and corresponding libraries is crucial for instilling confidence in MetID and driving further progress in metabolomics. Objective The EMBL-MCF 2.0 LC-MS/MS method and public library was designed to facilitate both targeted and untargeted metabolomics with exclusive focus on endogenous, polar metabolites, which are known to be challenging to analyze due to their hydrophilic nature. By accompanying spectral data with robust retention times obtained from authentic standards and low-adsorption chromatography, high confidence MetID is achieved and accessible to the metabolomics community. Methods The library is built on hydrophilic interaction liquid chromatography (HILIC) and state-of-the-art low adsorption LC hardware. Both high-resolution tandem mass spectra and manually optimized multiple reaction monitoring (MRM) transitions were acquired on an Orbitrap Exploris 240 and a QTRAP 6500+, respectively. Results Implementation of biocompatible HILIC has facilitated the separation of isomeric metabolites with significant enhancements in both selectivity and sensitivity. The resulting library comprises a diverse collection of more than 250 biologically relevant metabolites. The methodology was successfully applied to investigate a variety of biological matrices, with exemplary findings showcased using murine plasma samples. Conclusions Our work has resulted in the development of the EMBL-MCF 2.0 library, a powerful resource for sensitive metabolomics analyses and high-confidence MetID. The library is freely accessible and available in the universal .msp file format under the CC-BY 4.0 license: mona.fiehnlab.ucdavis.edu https://mona.fiehnlab.ucdavis.edu/spectra/browse?query=exists(tags.text:%27EMBL-MCF_2.0_HRMS_Library%27), EMBL-MCF 2.0 HRMS https://www.embl.org/groups/metabolomics/instrumentation-and-software/#MCF-library.

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EMBL-MCF 2.0: an LC-MS/MS method and corresponding library for high-confidence targeted and untargeted metabolomics using low-adsorption HILIC chromatography

Dekina,

Alexandrov,

Drotleff

2024

Metabolomics

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show abstract

Isotope dilution with isotopically labeled biomass: An effective alternative for quantitative metabolomics

Fitz,

Panzenboeck,

Schoeny

et al. 2024

Analytica Chimica Acta

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In-vivo tracking of deuterium metabolism in mouse organs using LC-MS/MS

Kasarla,

Flocke,

Saw

et al. 2024

Journal of Chromatography A

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Quantitative Analytical and Computational Workflow for Large-Scale Targeted Plasma Metabolomics

Cited by 3 publications

References 48 publications

EMBL-MCF 2.0: an LC-MS/MS method and corresponding library for high-confidence targeted and untargeted metabolomics using low-adsorption HILIC chromatography

EMBL-MCF 2.0: an LC-MS/MS method and corresponding library for high-confidence targeted and untargeted metabolomics using low-adsorption HILIC chromatography

Isotope dilution with isotopically labeled biomass: An effective alternative for quantitative metabolomics

In-vivo tracking of deuterium metabolism in mouse organs using LC-MS/MS

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