Comprehensive Food Profiling Combining High Resolution LC/MS and GC/MS Analyses
Applications | 2017 | Agilent TechnologiesInstrumentation
The comprehensive profiling of food metabolomes and lipidomes is critical for evaluating nutritional quality, verifying food authenticity, and understanding diet–health relationships. Untargeted mass spectrometry approaches enable the detection of hundreds to thousands of small molecules, enhancing our insight into complex dietary compositions and their biological impacts.
This study aimed to compare the small-molecule profiles of three representative diet plates—fast food (FF), pesco-vegetarian (PV), and eastern vegetarian (EV)—using a combination of high-resolution LC/MS and GC/MS. The goal was to maximize metabolite coverage across diverse chemical classes and to identify diet-specific biomarkers through untargeted acquisition and multivariate analysis.
Sample Preparation:
Instrumentation:
Data Processing:
- Thousands of features were detected across platforms; each LC method and ionization polarity contributed unique compounds, with only ~8% overlap between positive and negative ESI.
- Reproducibility was high: ~90% of LC/TOF features exhibited CV ≤30%.
- Multivariate analyses (PCA, correlation matrices) clearly separated sample plates and confirmed analytical precision.
- The PV plate yielded the largest number of unique metabolites, including antioxidants (sinapinic, gallic, caffeic acids) and polyunsaturated fatty acids (DHA, EPA).
- The EV plate was enriched in plant-derived compounds (daidzein, raffinose).
- The FF plate showed elevated saturated fats, pyrolysis products, and heat-processing markers.
This integrated untargeted workflow provides a robust platform for food authenticity screening, nutritional quality assessment, and discovery of diet-specific biomarkers. The high analytical coverage supports quality control in food production and epidemiological studies linking diet to health outcomes.
Advances in mass spectrometry, data-processing algorithms, and spectral libraries will further improve identification confidence and throughput. Expansion of tailored databases, machine-learning-based spectral interpretation, and integration with other omics will drive personalized nutrition and precision food analytics.
A comprehensive LC/MS and GC/MS approach, combined with sophisticated chemometric workflows, successfully differentiated three diet types and revealed distinctive metabolite and lipid signatures. This study underscores the value of multi-platform metabolomics for food science and nutrition research.
1. Cevallos-Cevallos et al., Trends Food Sci. Technol. 2009, 20, 557–566.
2. Johanningsmeier et al., Annu. Rev. Food Sci. Technol. 2016, 7, 413–438.
3. Wishart, Trends Food Sci. Technol. 2008, 19(9), 482–493.
4. Fiehn, Plant Mol. Biol. 2002, 48, 155–171.
5. Wu et al., Agilent Application Note 5991-2481EN.
6. Dai & Fischer, Agilent Application Note 5991-5706EN.
7. Jenkins et al., Agilent Application Note 5990-9858EN.
GC/MSD, GC/MS/MS, GC/HRMS, GC/Q-TOF, LC/TOF, LC/HRMS, LC/MS, LC/MS/MS
IndustriesFood & Agriculture, Metabolomics
ManufacturerAgilent Technologies
Summary
Significance of Topic
The comprehensive profiling of food metabolomes and lipidomes is critical for evaluating nutritional quality, verifying food authenticity, and understanding diet–health relationships. Untargeted mass spectrometry approaches enable the detection of hundreds to thousands of small molecules, enhancing our insight into complex dietary compositions and their biological impacts.
Objectives and Study Overview
This study aimed to compare the small-molecule profiles of three representative diet plates—fast food (FF), pesco-vegetarian (PV), and eastern vegetarian (EV)—using a combination of high-resolution LC/MS and GC/MS. The goal was to maximize metabolite coverage across diverse chemical classes and to identify diet-specific biomarkers through untargeted acquisition and multivariate analysis.
Methodology and Instrumentation
Sample Preparation:
- Homogenization and freeze-drying of mixed food ingredients per plate.
- Extraction of metabolites with 80:20 methanol/water; protein removal by centrifugation.
- GC/MS derivatization: methoxyamine hydrochloride followed by MSTFA+1% TMCS silylation.
Instrumentation:
- LC/MS (metabolomics): Agilent 1290 Infinity LC coupled to 6230 TOF or 6550 iFunnel Q-TOF; RP and aqueous normal-phase chromatography; positive and negative ESI.
- LC/MS (lipidomics): Agilent 1290 LC with 6550 iFunnel Q-TOF and Agilent Jet Stream source; reversed-phase separation.
- GC/MS: Agilent 7890B GC with 7200 GC/Q-TOF; electron ionization (EI) and chemical ionization (CI) spectra at high scan rates.
Data Processing:
- Feature extraction in Agilent MassHunter Profinder.
- Differential and multivariate analysis in Mass Profiler Professional (MPP), including PCA, volcano plots, Venn diagrams, and correlation analysis.
- Compound annotation via accurate-mass database matching (METLIN, Fiehn library, NIST14, SimLipid) and MS/MS confirmation using Molecular Structure Correlator.
Main Results and Discussion
- Thousands of features were detected across platforms; each LC method and ionization polarity contributed unique compounds, with only ~8% overlap between positive and negative ESI.
- Reproducibility was high: ~90% of LC/TOF features exhibited CV ≤30%.
- Multivariate analyses (PCA, correlation matrices) clearly separated sample plates and confirmed analytical precision.
- The PV plate yielded the largest number of unique metabolites, including antioxidants (sinapinic, gallic, caffeic acids) and polyunsaturated fatty acids (DHA, EPA).
- The EV plate was enriched in plant-derived compounds (daidzein, raffinose).
- The FF plate showed elevated saturated fats, pyrolysis products, and heat-processing markers.
Benefits and Practical Applications
This integrated untargeted workflow provides a robust platform for food authenticity screening, nutritional quality assessment, and discovery of diet-specific biomarkers. The high analytical coverage supports quality control in food production and epidemiological studies linking diet to health outcomes.
Future Trends and Potential Uses
Advances in mass spectrometry, data-processing algorithms, and spectral libraries will further improve identification confidence and throughput. Expansion of tailored databases, machine-learning-based spectral interpretation, and integration with other omics will drive personalized nutrition and precision food analytics.
Conclusion
A comprehensive LC/MS and GC/MS approach, combined with sophisticated chemometric workflows, successfully differentiated three diet types and revealed distinctive metabolite and lipid signatures. This study underscores the value of multi-platform metabolomics for food science and nutrition research.
References
1. Cevallos-Cevallos et al., Trends Food Sci. Technol. 2009, 20, 557–566.
2. Johanningsmeier et al., Annu. Rev. Food Sci. Technol. 2016, 7, 413–438.
3. Wishart, Trends Food Sci. Technol. 2008, 19(9), 482–493.
4. Fiehn, Plant Mol. Biol. 2002, 48, 155–171.
5. Wu et al., Agilent Application Note 5991-2481EN.
6. Dai & Fischer, Agilent Application Note 5991-5706EN.
7. Jenkins et al., Agilent Application Note 5990-9858EN.
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