Systems-Level Annotation of a Metabolomics Data Set Reduces 25 000 Features to Fewer than 1000 Unique Metabolites

Mahieu, Nathaniel G.; Patti, Gary J.

doi:10.1021/acs.analchem.7b02380

Cited by 260 publications

(262 citation statements)

References 44 publications

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“…RFQI is built based on three hypotheses: The number of features in a specific type of sample, i.e., urine, is finite when applying a fixed detection method, since the number of both metabolites in bio-samples and their adduct types are relatively limited 9 . The whole feature set can be assembled by grouping feature information from a certain number of samples.…”

Section: Resultsmentioning

confidence: 99%

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

luan

Cheng²,

Long³

et al. 2020

Preprint

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2Batch inconsistency is a major problem when applying LC-MS based untargeted 1 3 metabolomics in real-time analysis situation such as clinical diagnosis or health monitoring. 4And inefficiency of collecting MS2 is a major problem for metabolite identification. Here, we 1 5 developed a reference-feature based quantification and identification strategy (RFQI). In 1 6 RFQI, samples are individually profiled using a pre-fixed reference feature table. 7Quantification results show that RFQI improves features＇overlap rate and reduce variance 1 8 across batches significantly in real-time-analysis mode, and can find more than 4-fold 1 9 numbers of features. Besides, RFQI collects MS2 from consecutive increasing samples for 2 0 metabolite identification of pre-fixed features, thus it can effectively compensate for the poor 2 1 efficiency of MS2 collection in data-dependent acquisition mode. In summary, RFQI can 2 2 make full advantage of consecutive increasing samples in real-time analysis situation, both for 2 3 quantification and identification. 2 4 Key words: batch effect, LC-MS based untargeted metabolomics, metabolite identification 2 5 2 6 2 7

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Section: Resultsmentioning

confidence: 99%

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

luan

Cheng²,

Long³

et al. 2020

Preprint

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“…Our concept, paired mass distance (PMD), reflects such rules by calculating the mass differences of two compounds or charged ions. Mass distances can also directly reveal isotopologue information (11), adducts from a single compound (12), or adducts formed via complex in-source reactions (13). Highresolution mass spectrometry (HRMS) can directly measure such paired mass distances with the mass accuracy needed to provide reaction-level specificity.…”

Section: Introductionmentioning

confidence: 99%

Reactomics: using mass spectrometry as a reaction detector

Petrick

2019

Preprint

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Chemical reactions among small molecules enable untargeted metabolomics analysis, in which small molecules within tissue samples are identified through high-throughput assays. In standard mass spectrometry-based metabolomics, first significant small molecules are identified, then their biochemical relationships are probed to reveal biological fate (environmental studies) or biological impact (physiological response). However, we propose that biochemical relationships could be directly retrieved through untargeted high-resolution paired mass distance (PMD), which investigates chemical pairs in the samples without a priori knowledge of the identities of those participating compounds. We present the potential for this chemical reaction detector, or 'reactomics' approach, linking PMD from the mass spectrometer to biochemical reactions obtained via data mining of known small molecular metabolites/compounds and reaction databases. This approach encompasses both quantitative and qualitative analysis of reaction by mass spectrometry, and its potential applications include PMD network analysis, source appointment of unknown compounds, and biomarker reaction discovery instead of compound discovery. Such applications may promote novel biological discoveries that are not currently possible with classical chemical analysis.

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“…Artifacts are signals that result from informatic errors. In some untargeted metabolomic experiments, contaminants and artifacts may represent a major fraction of the total LC/MS signals detected [6]. …”

Section: Introductionmentioning

confidence: 99%

A Protocol to Compare Methods for Untargeted Metabolomics

Wang

Naser

Spalding

et al. 2018

Methods in Molecular Biology

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There are thousands of published methods for profiling metabolites with liquid chromatography/mass spectrometry (LC/MS). While many have been evaluated and optimized for a small number of select metabolites, very few have been assessed on the basis of global metabolite coverage. Thus, when performing untargeted metabolomics, researchers often question which combination of extraction techniques, chromatographic separations, and mass spectrometers is best for global profiling. Method comparisons are complicated because thousands of LC/MS signals (so-called features) in a typical untargeted metabolomic experiment cannot be readily identified with current resources. It is therefore challenging to distinguish methods that increase signal number due to improved metabolite coverage from methods that increase signal number due to contamination and artifacts. Here, we present the credentialing protocol to remove the latter from untargeted metabolomic datasets without having to identify metabolite structures. This protocol can be used to compare or optimize methods pertaining to any step of the untargeted metabolomic workflow (e.g., extraction, chromatography, mass spectrometer, informatic software, etc.).

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Systems-Level Annotation of a Metabolomics Data Set Reduces 25 000 Features to Fewer than 1000 Unique Metabolites

Cited by 260 publications

References 44 publications

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

Reactomics: using mass spectrometry as a reaction detector

A Protocol to Compare Methods for Untargeted Metabolomics

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Systems-Level Annotation of a Metabolomics Data Set Reduces 25 000 Features to Fewer than 1000 Unique Metabolites

Cited by 260 publications

References 44 publications

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

A Reference Feature based method for Quantification and Identification of LC-MS based untargeted metabolomics

Reactomics: using mass spectrometry as a reaction detector

A Protocol to Compare Methods for Untargeted Metabolomics

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Product

Resources

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Systems-Level Annotation of a Metabolomics Data Set Reduces 25 000 Features to Fewer than 1000 Unique Metabolites