Integrating MS1 and MS2 Scans in High-Resolution Parallel Reaction Monitoring Assays for Targeted Metabolite Quantification and Dynamic <sup>13</sup>C-Labeling Metabolism Analysis

Li, Zhucui; Li, Yujing; Chen, Wujiu; Cao, Qin; Guo, Yiting; Wan, Ni; Jiang, Xiaolong; Tang, Yinjie J.; Wang, Qinhong; Wang, Shui

doi:10.1021/acs.analchem.6b03947

Cited by 34 publications

(27 citation statements)

References 34 publications

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“…This concept of isotopologue selective fragmentation was also implemented in a recently published study on tracking of the carbon origin of tandem MS CID fragments using liquid chromatography [ 10 ]. Another analytical method using this approach, based on liquid chromatography was just recently published by Li et al based on pure ion intensity data [ 13 ].…”

Section: Introductionmentioning

confidence: 99%

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

Mairinger

2017

Anal Bioanal Chem

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A novel analytical approach based on liquid chromatography coupled to quadrupole time of flight mass spectrometry, employing data-dependent triggering for analysis of isotopologue and tandem mass isotopomer fractions of metabolites of the primary carbon metabolism was developed. The implemented QTOFMS method employs automated MS/MS triggering of higher abundant, biologically relevant isotopologues for generating positional information of the respective metabolite. Using this advanced isotopologue selective fragmentation approach enables the generation of significant tandem mass isotopomer data within a short cycle time without compromising sensitivity. Due to a lack of suitable reference material certified for isotopologue ratios, a Pichia pastoris cell extract with a defined 13C distribution as well as a cell extract from a 13C-based metabolic flux experiment were employed for proof of concept. Moreover, a method inter-comparison with an already established GC-CI-(Q)TOFMS approach was conducted. Both methods showed good agreement on isotopologue and tandem mass isotopomer distributions for the two different cell extracts. Graphical abstractSchematic overview of data-dependent isotopologue fragmentation for acquisition of isotopologue and tandem mass isotopomer fractions

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Section: Introductionmentioning

confidence: 99%

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

Mairinger

2017

Anal Bioanal Chem

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“…Owing to the high sensitivity and robustness, parallel reaction monitoring (PRM) has recently emerged as the "gold standard" MS technique for targeted proteomic approaches, which are routinely used for quantitative analysis of targeted proteins 47,48 . To independently validate our quantitative results, we next conducted a PRM assay for 15 of the identified DEPs.…”

Section: Confirmation Of Differentially Regulated Proteins By Parallementioning

confidence: 99%

A novel phosphoinositide kinase Fab1 regulates biosynthesis of pathogenic aflatoxin in Aspergillus flavus

et al. 2020

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“…Thus, the metabolites quantified are prespecified and by nature, this data does not allow for retrospective analysis of additional molecules. Parallel reaction monitoring partially overcomes this disadvantage by increasing the number of compounds targeted in a single analysis, but to date has been utilized only minimally in metabolomics [3,4]. …”

Section: Technical Considerations Of Metabolomics Approachesmentioning

confidence: 99%

Measurement of metabolic fluxes using stable isotope tracers in whole animals and human patients

Reisz

D’Alessandro

2017

Current Opinion in Clinical Nutrition &Amp; Metabolic Care

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Purpose of review Metabolic flux analysis using stable isotope labeled substrates allows for the tracing of carbon, nitrogen, and hydrogen atoms through metabolic pathways and is an invaluable tool for investigating dynamic metabolic changes occurring in health and disease. Studies of flux analysis in vivo are more technically challenging than in vitro or ex vivo but provide a highly detailed view of organ and/or systemic metabolism. We review here recent efforts in studies of diet and nutrition, non-small cell lung cancer, ischemia/reperfusion injury, and hemorrhagic shock where in vivo flux analysis was utilized to analyze metabolic modulation. Recent findings Recent technical strides in the field of metabolomics afford sensitive and quantitative in vivo measurements of metabolic fluxes. Stable isotope tracing with 13C-glucose, 13C, 15N-glutamine, 13C-propionate, and other substrates are used in combination or in parallel to investigate the interplays among central carbon metabolic pathways and many other areas of the metabolome. Summary Stable isotope tracing in vivo provides opportunities to investigate physiological processes in the context of the whole animal. These approaches, often NMR spectroscopy or mass spectrometry (MS)-based, are growing in use and will likely find key applications in studying systemic disease, sports physiology, cancer metabolism, and personalized medicine.

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Integrating MS1 and MS2 Scans in High-Resolution Parallel Reaction Monitoring Assays for Targeted Metabolite Quantification and Dynamic ¹³C-Labeling Metabolism Analysis

Cited by 34 publications

References 34 publications

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

A novel phosphoinositide kinase Fab1 regulates biosynthesis of pathogenic aflatoxin in Aspergillus flavus

Measurement of metabolic fluxes using stable isotope tracers in whole animals and human patients

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Integrating MS1 and MS2 Scans in High-Resolution Parallel Reaction Monitoring Assays for Targeted Metabolite Quantification and Dynamic 13C-Labeling Metabolism Analysis

Cited by 34 publications

References 34 publications

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

Implementation of data-dependent isotopologue fragmentation in 13C-based metabolic flux analysis

A novel phosphoinositide kinase Fab1 regulates biosynthesis of pathogenic aflatoxin in Aspergillus flavus

Measurement of metabolic fluxes using stable isotope tracers in whole animals and human patients

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Product

Resources

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Integrating MS1 and MS2 Scans in High-Resolution Parallel Reaction Monitoring Assays for Targeted Metabolite Quantification and Dynamic ¹³C-Labeling Metabolism Analysis