Screening and Verifying Mycotoxins in Food with Q-TOF LC/MS and an Accurate Mass Library
Applications | 2016 | Agilent TechnologiesInstrumentation
The contamination of food commodities by mycotoxins presents serious health concerns and strict regulatory demands. Broad-spectrum, high-resolution screening methods are essential to detect both regulated and emerging fungal metabolites in diverse matrices. Accurate mass LC/Q-TOF workflows can enhance sensitivity, selectivity, and retrospective data analysis capabilities for comprehensive mycotoxin surveillance.
This application note reports on the development of an accurate-mass spectral library comprising over 300 mycotoxins and related metabolites. The library was integrated with two acquisition strategies—targeted MS/MS and All Ions MS/MS—using an Agilent 1290 Infinity LC coupled to an Agilent 6550 iFunnel Q-TOF. Forty-four representative mycotoxins were spiked into maize, hazelnut, and wine matrices to evaluate screening, identification, and verification performance.
Sample Preparation:
Chromatographic Conditions:
Acquisition Modes:
Both workflows effectively detected and confirmed 44 indicator mycotoxins in spiked matrices at 30 ng/mL. Mass deviations were generally below 1 ppm, with target scores above 90. Coelution scoring in All Ions MS/MS allowed verification of fragment ions without precursor isolation. Target MS/MS provided high-confidence spectra for low-mass analytes. In a naturally contaminated hazelnut sample, six mycotoxins were quantified, demonstrating applicability to real-world samples.
The approach offers rapid, minimal-prep screening and verification of regulated and emerging mycotoxins across complex matrices. It supports retrospective analysis for unknowns, high-throughput workflows, and complements single-analyte methods in QA/QC laboratories and research environments.
Expansion of accurate mass libraries to include newly discovered fungal metabolites, integration with automated data-mining tools, and application of ion mobility separation are expected to enhance selectivity. Harmonized, high-throughput HRAM workflows will facilitate regulatory monitoring and early detection of emerging mycotoxin threats.
The combination of accurate-mass spectral libraries with target and All Ions MS/MS acquisition on a high-resolution Q-TOF platform provides a robust strategy for comprehensive mycotoxin screening and verification in food. It yields high confidence identifications, broad compound coverage, and the potential for retrospective data review.
LC/TOF, LC/HRMS, LC/MS, LC/MS/MS
IndustriesFood & Agriculture
ManufacturerAgilent Technologies
Summary
Significance of the Topic
The contamination of food commodities by mycotoxins presents serious health concerns and strict regulatory demands. Broad-spectrum, high-resolution screening methods are essential to detect both regulated and emerging fungal metabolites in diverse matrices. Accurate mass LC/Q-TOF workflows can enhance sensitivity, selectivity, and retrospective data analysis capabilities for comprehensive mycotoxin surveillance.
Objectives and Study Overview
This application note reports on the development of an accurate-mass spectral library comprising over 300 mycotoxins and related metabolites. The library was integrated with two acquisition strategies—targeted MS/MS and All Ions MS/MS—using an Agilent 1290 Infinity LC coupled to an Agilent 6550 iFunnel Q-TOF. Forty-four representative mycotoxins were spiked into maize, hazelnut, and wine matrices to evaluate screening, identification, and verification performance.
Methodology and Instrumentation
Sample Preparation:
- Grind and homogenize 5 g of blank maize or hazelnut, add 20 mL acidified acetonitrile–water (79:20.9:0.1, v/v/v).
- Shake 90 min, settle solids, transfer supernatant, spike at three concentration levels.
Chromatographic Conditions:
- Column: Poroshell 120 EC-C18, 2.1×100 mm, 2.7 µm.
- Mobile phase A: 5 mM ammonium formate + 0.1% formic acid; B: same in methanol.
- Gradient: 10% B to 98% B over 10 min, total run 17 min, flow 0.40 mL/min, 30 °C, injection 2 µL.
Acquisition Modes:
- Target MS/MS: precursor selection, collision energy 20 V, 3 Hz scans for MS and MS/MS.
- All Ions MS/MS: simultaneous low-energy channel and two high-energy channels (0, 10, 40 V), 3 Hz.
Used Instrumentation
- Agilent 1290 Infinity UHPLC (Binary Pump, Autosampler, Column Compartment)
- Agilent 6550 iFunnel Q-TOF LC/MS
- Dual-spray Agilent Jet Stream electrospray source
- Agilent 1260 Isocratic Pump for reference mass delivery
- Agilent MassHunter Data Acquisition, Qualitative Analysis, and Quantitative Analysis software
- Custom Personal Compound Database and Library (Mycotoxins and Related Metabolites PCDL)
Main Results and Discussion
Both workflows effectively detected and confirmed 44 indicator mycotoxins in spiked matrices at 30 ng/mL. Mass deviations were generally below 1 ppm, with target scores above 90. Coelution scoring in All Ions MS/MS allowed verification of fragment ions without precursor isolation. Target MS/MS provided high-confidence spectra for low-mass analytes. In a naturally contaminated hazelnut sample, six mycotoxins were quantified, demonstrating applicability to real-world samples.
Benefits and Practical Applications
The approach offers rapid, minimal-prep screening and verification of regulated and emerging mycotoxins across complex matrices. It supports retrospective analysis for unknowns, high-throughput workflows, and complements single-analyte methods in QA/QC laboratories and research environments.
Future Trends and Applications
Expansion of accurate mass libraries to include newly discovered fungal metabolites, integration with automated data-mining tools, and application of ion mobility separation are expected to enhance selectivity. Harmonized, high-throughput HRAM workflows will facilitate regulatory monitoring and early detection of emerging mycotoxin threats.
Conclusion
The combination of accurate-mass spectral libraries with target and All Ions MS/MS acquisition on a high-resolution Q-TOF platform provides a robust strategy for comprehensive mycotoxin screening and verification in food. It yields high confidence identifications, broad compound coverage, and the potential for retrospective data review.
References
- Zöllner P.; Mayer-Helm B. J. Chromatogr. A. 2006, 1136, 123–169.
- Commission Regulation (EC) No. 1881/2006 and amendments for food contaminants.
- Commission Recommendation 2013/165/EU on T-2 and HT-2 toxins in cereals.
- Varga E. et al. Application Note, Agilent Technologies, 5991-4991EN, 2014.
- Varga E. et al. Application Note, Agilent Technologies, 5991-2808EN, 2013.
- Kempe G. et al. Application Note, Agilent Technologies, 5991-2227EN, 2013.
- Wüst B. et al. Application Note, Agilent Technologies, 5991-2295EN, 2013.
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