Separation of Polyphenols by Comprehensive 2D-LC and Molecular Formula Determination by Coupling to Accurate Mass Measurement
Applications | 2014 | Agilent TechnologiesInstrumentation
Polyphenolic compounds are important secondary metabolites in plant derived foods and beverages. Their structural diversity and presence in complex matrices pose challenges for separation and identification. Comprehensive two dimensional liquid chromatography coupled to accurate mass measurement provides enhanced resolution and confident molecular formula determination critical for food testing and agricultural analysis
The study aimed to link a two dimensional LC system to an accurate mass quadrupole time of flight instrument to separate and identify 22 polyphenolic standards. Key goals included achieving orthogonal chromatographic selectivity, extracting high resolution mass spectra from two dimensional retention data, and determining mass accuracies to support formula assignment
The comprehensive 2D-LC approach used a first dimension C18 column and a second dimension phenyl hexyl column with solvent gradients modulated every 30 seconds via dual 80 microliter loops. The first dimension employed water and acetonitrile with formic acid at 0.1 percent under a gradient from 5 to 95 percent B over 40 minutes at 0.1 milliliter per minute. The second dimension ran at 3 milliliters per minute with water and methanol containing formic acid, using rapid gradient cycles to enhance separation. Effluent fractions were transferred through a T splitter to an electrospray ionization source for time of flight detection
The method successfully resolved all 22 standards with first dimension retention between 3.5 and 23.5 minutes and second dimension between 2.5 and 22.5 seconds. Orthogonal selectivity enabled separation of coeluting flavonoids such as luteolin and quercetin. Mass spectra extracted from two dimensional plots provided mass accuracies typically below 2 ppm. Gallic acid was measured with 0.28 ppm accuracy, hesperidin at 0.48 ppm, resveratrol at 1.18 ppm and pinosylvin at 1.64 ppm. Formula assignments were achieved with high confidence using a formula space from C3-35H7-72O1-20 and a 5 ppm filter
This configuration enhances analytical throughput and separation power for complex plant matrices. Accurate mass measurement enables confident identification of unknown polyphenols in food quality control and agricultural research. The approach supports rapid profiling of bioactive compounds in juices, wines and herbal extracts
Advances may include integration of automated data analysis pipelines, extension to both negative and positive ion modes, coupling with tandem mass spectrometry for structural elucidation and adaptation to high throughput metabolomics screening. Ongoing development of 2D-LC hardware and software will expand applicability to diverse sample types
Coupling comprehensive 2D-LC to accurate mass Q-TOF LC/MS via a simple T splitter is straightforward and delivers high resolution separation and precise mass measurement. The workflow enables robust molecular formula determination of polyphenols in complex matrices relevant to food testing and agriculture
LC/TOF, LC/HRMS, LC/MS, LC/MS/MS, 2D-LC
IndustriesFood & Agriculture
ManufacturerAgilent Technologies
Summary
Significance of the Topic
Polyphenolic compounds are important secondary metabolites in plant derived foods and beverages. Their structural diversity and presence in complex matrices pose challenges for separation and identification. Comprehensive two dimensional liquid chromatography coupled to accurate mass measurement provides enhanced resolution and confident molecular formula determination critical for food testing and agricultural analysis
Objectives and Study Overview
The study aimed to link a two dimensional LC system to an accurate mass quadrupole time of flight instrument to separate and identify 22 polyphenolic standards. Key goals included achieving orthogonal chromatographic selectivity, extracting high resolution mass spectra from two dimensional retention data, and determining mass accuracies to support formula assignment
Methodology and Instrumentation
The comprehensive 2D-LC approach used a first dimension C18 column and a second dimension phenyl hexyl column with solvent gradients modulated every 30 seconds via dual 80 microliter loops. The first dimension employed water and acetonitrile with formic acid at 0.1 percent under a gradient from 5 to 95 percent B over 40 minutes at 0.1 milliliter per minute. The second dimension ran at 3 milliliters per minute with water and methanol containing formic acid, using rapid gradient cycles to enhance separation. Effluent fractions were transferred through a T splitter to an electrospray ionization source for time of flight detection
Used Instrumentation
- Agilent 1290 Infinity Binary Pumps
- Agilent 1290 Infinity Autosampler with Thermostat
- Agilent 1290 Infinity Thermostatted Column Compartment
- Agilent 1290 Infinity Diode Array Detector
- Agilent 6530 Accurate Mass Q-TOF LC/MS with Jet Stream ESI
- Agilent OpenLab CDS and MassHunter software
Main Results and Discussion
The method successfully resolved all 22 standards with first dimension retention between 3.5 and 23.5 minutes and second dimension between 2.5 and 22.5 seconds. Orthogonal selectivity enabled separation of coeluting flavonoids such as luteolin and quercetin. Mass spectra extracted from two dimensional plots provided mass accuracies typically below 2 ppm. Gallic acid was measured with 0.28 ppm accuracy, hesperidin at 0.48 ppm, resveratrol at 1.18 ppm and pinosylvin at 1.64 ppm. Formula assignments were achieved with high confidence using a formula space from C3-35H7-72O1-20 and a 5 ppm filter
Benefits and Practical Applications
This configuration enhances analytical throughput and separation power for complex plant matrices. Accurate mass measurement enables confident identification of unknown polyphenols in food quality control and agricultural research. The approach supports rapid profiling of bioactive compounds in juices, wines and herbal extracts
Future Trends and Potential Applications
Advances may include integration of automated data analysis pipelines, extension to both negative and positive ion modes, coupling with tandem mass spectrometry for structural elucidation and adaptation to high throughput metabolomics screening. Ongoing development of 2D-LC hardware and software will expand applicability to diverse sample types
Conclusion
Coupling comprehensive 2D-LC to accurate mass Q-TOF LC/MS via a simple T splitter is straightforward and delivers high resolution separation and precise mass measurement. The workflow enables robust molecular formula determination of polyphenols in complex matrices relevant to food testing and agriculture
Reference
- Naegele E Qualitative and quantitative determination of phenolic antioxidant compounds in red wine and fruit juice with the Agilent 1290 Infinity 2D-LC Solution Agilent Technologies Application Note 5991-0426EN 2012
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