Identify. Quantify. Simplify. See the Whole PictureAgilent 7250 GC/Q-TOF system
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Discovering what’s in your sample, at what levels, helps you make the conclusions and breakthroughs that your organization depends on.
The all-in-one Agilent 7250 GC/Q-TOF system with comprehensive Agilent MassHunter software ensures confidence across GC/MS workflows. It’s the premier instrument for your toughest GC/MS identification, quantification, and exploration challenges:
– Performing complex metabolomics studies
– Screening for pesticides in challenging matrices
– Identifying compounds in herbal extracts
– Testing contaminant levels in chemical feedstock
Designed for real-world performance and built for laboratory robustness, the 7250 delivers what your organization needs: consistently excellent results.
Ready to Achieve More?
Ultimate confidence for routine screening workflows and once-in-a-lifetime discoveries
The 7250 gives you more…
– Sensitive detection
– Accurate quantification
– Power to explore
– Simplified spectra
– Reproducible data
So you can worry less about…
– Future regulation
– Uncertain results
– True unknowns
– Data interpretation time
– Replicate ambiguity
Evolving analytical challenges call for new methods and novel approachesFor over 40 years, Agilent innovations have helped diverse labs meet the demand for ever-more-detailed analysis.
The 7250 is our most advanced GC/Q-TOF. It can analyze nearly any kind of molecule or element, and is designed to provide outstanding performance for labs across the analytical spectrum.
Not seeing the whole picture can have serious implications for your research, development, and quality control. The analytical prowess of the 7250 and MassHunter software brings you unmatched compound identification abilities.
– Know your compounds. Undistorted library-quality spectra let you confidently identify compounds against commercial libraries.
– Confirm formulas. Isotopic fidelity gives you greater certainty when assigning molecular formulas.
– Detect trace analytes. Ensure a broad in-spectrum dynamic range, even with abundant coelution.
– Elucidate structures. MS/MS measurements with high-resolution, accurate mass product ion spectra can provide structural information, increase selectivity, and circumvent matrix interferences.
“ The Agilent instruments are very useful in our laboratory for three reasons: they’re reliable, accurate, and easy to use.”
– Mike Thurman, PhD Center for Environmental Mass Spectrometry, University of Colorado
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Need More Confident Identification?
Agilent Value Promise We guarantee you at least 10 years of instrument use from the date you buy. Otherwise, we will credit you with the residual value of the system toward an upgraded model.
220.0
144.9814
15.031.0 47.0 60.0
78.9941
79.083.0 93.0
109.0048
109.0
184.9762
185.0
219.9451
145.0128.0 173.0 192.0 204.0
0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230
x102
1
0.6
0.4
0.20.3
0.5
0.70.80.9
-1.1-1
-0.9-0.8-0.7-0.6-0.5-0.4-0.3-0.2-0.1
00.1
Mass-to-charge (m/z)
Coun
ts
Component RT: 4.6478Spectral fidelity and mass accuracy: dichlorvos analysis Now you can easily identify compounds by doing a spectral search against commercially available libraries. The 7250 supports the quality of hundreds of thousands of compound library spectra, most of which were generated by our quadrupole GC/MS systems. True-to-library fragmentation patterns, together with full-spectrum acquisition, make the 7250 the ideal platform for GC/MS identification.
Compound: dichlorvos Library spectrum
7250 GC/Q-TOF spectrum Sample matrix: solvent
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Isotopic fidelity: dodecane analysisConfident compound identification demands more than good mass accuracy. It also requires you to consider independent compound characteristics, like isotopic pattern matching.
You can easily picture isotopic fidelity through MassHunter qualitative analysis. It allows you to identify compounds complementary to accurate mass measurement. The 7250 exhibits excellent isotopic fidelity, even for trace-level isotopes, as shown in this dodecane spectrum with a minor M+ peak cluster.
Wide dynamic range: phosphorylethanolamine analysisA wide in-spectrum dynamic range lets you confidently detect trace-level analytes in the presence of abundant background or other coeluents.
The 7250 typically provides four orders of in-spectrum dynamic range magnitude, even in heavy matrices. This example displays a range of 16,000+:1 for phosphorylethanolamine (4TMS) in a complex biological sample of mouse lung extract.
High resolution and mass accuracy: thiamethoxam analysisHigh resolution is necessary to separate analytes from interferences. However, this performance characteristic must be usable under challenging conditions, like complex matrices and trace-level analytes.
The example shown here represents such a scenario: analyzing the insecticide thiamethoxam at 5 ppb in avocado, a complex matrix with significant background levels. Even under these conditions, characteristic mass peaks are separated from background with mass accuracy that complies with SANTE/11945/2015 guidelines.
What’s more, this level of spectral performance is achieved regardless of acquisition speed or mass range.
212.05 212.1 212.15Counts vs. mass-to-charge (m/z)
x103
5
4.5
4
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3
2.5
2
1.5
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0
Cpd 101: Thiamethoxam; C8 H10 Cl N5 O3 S; 10. Cpd 101: Thiamethoxam; C8 H10 Cl N5 O3 S; 10.x103
5
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3
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212.05 212.1 212.15Counts vs. mass-to-charge (m/z)
212.1045
212.0833 212.1518
212.0490
182.0939
182.1631
182.1286
182.0579
182.0384
0.7 ppmR=25705
0.8 ppm(0.15 mDa)R=24645
x106
0
1
2
3
4+EI Scan ( rt : 16.186 - 16.190 min, 2 scans)
* 73.0466
172.0968
188.1280
100.0573315.1018
133.0130 211.000086.0417 414.1527283.0397 387.1414341.1178
Counts vs. mass-to-charge70 100 150 200 250 300 350 400 450
2.8 ppm 5x10
0.10.20.30.40.50.60.70.80.9
11.11.21.31.41.51.61.71.81.9
2
+EI Scan ( rt: 16.186-16.190 min, 2 scans)
414.1527
415.1537
416.1512417.1520 418.1494 419.1475
414 414.2 414.4 414.6 414.8 415 415.2 415.4 415.6 415.8 416 416.2 416.4 416.6 416.8 417 417.2 417.4 417.6 417.8 418 418.2 418.4 418.6 418.8 419 419.2 419.4 419.6 419.8
2.3 ppm2.8 ppm
3.3 ppm 0.6 ppm
1.1 ppm
2.5 ppm
Counts vs. mass-to-charge
Compound:phosphorylethanolamine, 4TMS
Sample matrix:mouse lung extract
x104
0
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4Dodecane: +EI Scan (rt:4.676 min)
170.2031[C12 H26]+
171.2063[C12 H26]+
172.2097171.1403
Counts vs. mass-to-charge
170.2 170.5 171 171.5 172 172.3
H3CCH3
100%
13.28%
0.81%+1 M+
0 ppm0 mDa
+2 M+
0.58 ppm0.1 mDa
M+
1.17 ppm0.2 mDa
Compound: dodecaneSample matrix: solvent
x104
0
1
2
3
4Dodecane: +EI Scan (rt:4.676 min)
170.2031[C12 H26]+
171.2063[C12 H26]+
172.2097171.1403
Counts vs. mass-to-charge
170.2 170.5 171 171.5 172 172.3
H3CCH3
100%
13.28%
0.81%+1 M+
0 ppm0 mDa
+2 M+
0.58 ppm0.1 mDa
M+
1.17 ppm0.2 mDa
x106
0
1
2
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4+EI Scan ( rt : 16.186 - 16.190 min, 2 scans)
* 73.0466
172.0968
188.1280
100.0573315.1018
133.0130 211.000086.0417 414.1527283.0397 387.1414341.1178
Counts vs. mass-to-charge70 100 150 200 250 300 350 400 450
2.8 ppm 5x10
0.10.20.30.40.50.60.70.80.9
11.11.21.31.41.51.61.71.81.9
2
+EI Scan ( rt: 16.186-16.190 min, 2 scans)
414.1527
415.1537
416.1512417.1520 418.1494 419.1475
414 414.2 414.4 414.6 414.8 415 415.2 415.4 415.6 415.8 416 416.2 416.4 416.6 416.8 417 417.2 417.4 417.6 417.8 418 418.2 418.4 418.6 418.8 419 419.2 419.4 419.6 419.8
2.3 ppm2.8 ppm
3.3 ppm 0.6 ppm
1.1 ppm
2.5 ppm
Counts vs. mass-to-charge
x106
0
1
2
3
4+EI Scan ( rt : 16.186 - 16.190 min, 2 scans)
* 73.0466
172.0968
188.1280
100.0573315.1018
133.0130 211.000086.0417 414.1527283.0397 387.1414341.1178
Counts vs. mass-to-charge70 100 150 200 250 300 350 400 450
2.8 ppm 5x10
0.10.20.30.40.50.60.70.80.9
11.11.21.31.41.51.61.71.81.9
2
+EI Scan ( rt: 16.186-16.190 min, 2 scans)
414.1527
415.1537
416.1512417.1520 418.1494 419.1475
414 414.2 414.4 414.6 414.8 415 415.2 415.4 415.6 415.8 416 416.2 416.4 416.6 416.8 417 417.2 417.4 417.6 417.8 418 418.2 418.4 418.6 418.8 419 419.2 419.4 419.6 419.8
2.3 ppm2.8 ppm
3.3 ppm 0.6 ppm
1.1 ppm
2.5 ppm
Counts vs. mass-to-charge
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Elucidate chemical structures and reveal greater detail
4x10
00.25
0.50.75
11.25
1.51.75
22.25
2.52.75
33.25
-
189.0730
119.0858 204.096195.0859 107.0865 174.049981.0702 135.116767.0539 147.1174 161.0413
Counts vs. mass-to-charge (m/z)60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175 180 185 190 195 200 205 210 215 220 225 230 235 240 245 250
+EI Product Ion:8 (rt: 32.267 min) Frag=70.0V [email protected] (204.0976[z=1] -> **)
With MS/MS product ion spectra generated from a putative molecular ion, powerful Molecular Structure Correlator software can propose compound structure possibilities and likelihoods based on fragment data.
Compounds with unknown identities or unknown structures can be interrogated to narrow the range of possibilities.
119.0859 2749.10 6.7 4 89.0
Searching for Better Quantitative Answers?
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Fonofos-10 Levels, 10 Levels Used, 32 Points, 32 Points Used, 0 QCs
Concentration (ng/mL)-50 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050
7x10
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y = 10221.077352 * x - 2814.193685R^2 = 0.99919803Type:Linear, Origin:Ignore, Weight:1/x
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Targeted quantification with untargeted acquisition is a powerful combination. The Agilent 7250 GC/Q-TOF system delivers unmatched quantitative accuracy with its superior chromatography, high mass resolution, and a wide dynamic range.
– Extend linear dynamic range with high resolution. Broad linearity in quantitative measurement is enabled by state-of-the-art electronics for mass separation and detection.
– Precisely analyze real-world samples. Achieve consistent response factors, even for trace analytes in abundant matrices.
– Quantify at high speeds. Fast acquisition speeds with high-resolution spectra facilitate accurate deconvolution of narrow, coeluting GC peaks.
– Detect and extract component features. MassHunter SureMass, a unique signal processing algorithm, optimizes mass accuracy and signal intensity.
The Agilent MassHunter SureMass algorithm for detecting chemical features is designed specifically for high-resolution MS profile data.
Accurate quantification: fonofos analysis A wide linear dynamic range brings quantitative accuracy across varying concentrations. Response factors are maintained even at low concentrations in complex samples, as shown in this separation of fonofos at 0.5 to 1,000 ng/mL in avocado matrix.
Fonofos-10 Levels, 10 Levels Used, 32 Points, 32 Points Used, 0 QCs
0 5 10 15 20 25 30 35 40 45 50
5x10
-0.50
0.51
1.52
2.53
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4.55
5.56 y = 10221.077352 * x - 2814.193685
R^2 = 0.99919803Type:Linear, Origin:Ignore, Weight:1/x
Res
pons
es
Compound: fonofosSample matrix: avocadoAnalyte levels: 0.5–1000 ppb
Fonofos-10 Levels, 10 Levels Used, 32 Points, 32 Points Used, 0 QCs
Concentration (ng/mL)-50 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050
7x10
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y = 10221.077352 * x - 2814.193685R^2 = 0.99919803Type:Linear, Origin:Ignore, Weight:1/x
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Want to Simplify Your Analysis?
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Enable workflows that were previously impractical or impossible with the 7250, the world’s only high-resolution GC/Q-TOF. It lets you create simplified spectra without relying on specialty techniques, and while retaining the universal applicability of electron ionization.
The electron ionization source in the 7250 is based on the proven high-efficiency source (HES) in the Agilent 5977B GC/MSD and 7010B GC/TQ systems. It has been optimized for low-energy operation, yet still performs at conventional 70 eV ionization. In addition, HES design modifications amplify the analytical sensitivity of low-energy electron ionization for a paradigm shift in GC/MS soft ionization.
Combined with available interchangeable chemical ionization sources, the soft ionization options for the 7250 simplify your most challenging analyses.
– Identify with confidence. Preserve or enhance molecular ions for sensitive MS/MS experiments (application dependent).
– Stretch your limits. Ionize across analyte classes while avoiding analytical sensitivity losses common with other soft ionization techniques.
– Improve efficiency. Harness the proven performance of ion source technology from the global GC/MS leader.
Soft ionization in challenging matrices: kynurenine analysis Identifying metabolites (and other compound classes with similar structures) in complex matrices can be challenging. In this metabolomics experiment, kynurenine was detected in a mouse lung extract.
Lowering the source ionization energy creates a spectral tilt toward the molecular ion. Here, both the relative and absolute amounts of the molecular ion increased at 17 eV, ideal for MS/MS experiments.
At even lower ionization energies, the proposed molecular ion becomes the base ion in the component spectra, lending further assurance to the identification.
Low-energy electron ionization delivers accessible analytical sensitivity for universal ionization and confident detection.
Available interchangeable chemical ionization sources give you easy access to conventional GC/MS soft ionization.
70 eVSample matrix: mouse lung extract
M+ becomes base ion12 eVSample matrix: mouse lung extract
5x10
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
C13H22Cl6: -CI Scan (rt:11.297-11.300 min, 2 scans) Frag=250.0V S9_StdCong_500ppbv-1.D Subtract 389.9819
[C13 H22 Cl6]-
354.0054[C13 H21 Cl5]-
318.0281 369.0278282.0529165.0375 224.0631205.1934
Counts vs. mass-to-charge (m/z)
150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400
-2.6 ppm
-2.3 ppm
5x10
0
1
+CI Scan (rt: 21.661-21.671 min, 4 scans) Frag=110.0V 7280AppMix1 1ng PCI.D Subtract
226.1335100.00
94.064924.7677.0382
9.73254.1643
9.53120.0804
7.33148.0863
2.64191.1783
0.53172.1238
0.21209.1061
0.15
70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270
(M+H)+
(M+C2H5)+
-1.8 ppm
-3.5 ppm
Counts vs. mass-to-charge (m/z)
p-dimethylaminoazobenzene
Chlorinated paraffins
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120 pesticides spiked into three different food matrices, including avocado and salmon. The repeatability (RSD %) values for spiking levels of 5 ng/mL and 10 ng/mL confirm excellent analytical performance. Two examples of detected characteristic ion replicates are also shown.
Quantitative accuracy at 10 ng/mL. A rapid comparison against maximum residue limits (MRLs) is shown for six food matrices of varying complexity. Even for complex matrices like avocado and salmon, quantitative accuracy complies with EU SANTE/11813/2017 guidelines for over 97% of the pesticide/food pairs tested.
Food producers and consumers face threats from food adulteration and fraudulent labeling. In addition, global trade, stringent regulations, and increased public awareness are driving the need for more frequent and detailed food testing.
The 7250 helps you meet these challenges with a single platform that optimizes target, suspect, and unknown compound screening.
– Our customizable, high-resolution spectral library of pesticides and environmental pollutants lets you qualitatively screen for over 1,000 compounds of interest.
– Our comprehensive screening workflow identifies suspect analytes using high-resolution library matching performed in parallel with target quantitation.
– SureMass signal processing lets you quantify targets across a broad linear dynamic range and identify unknowns using commercial libraries.
Protect Customers and Your Reputation
Food Testing
Matrix matters Untargeted acquisition and high-resolution spectral libraries let you comprehensively screen for pesticides in food matrices.
Pesticide No. 1-120
Number of pesticides at 10 ng/mL ± 20%
Apple 117 Avocado 118 Cucumber 117 Peach 119 Salmon 118 Tomato 119
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“The GC/MS Q-TOF system enabled us to confirm the positive, but also to avoid false positive results.”
– Peter Furst, PhD Department of Central Analytical Services, Chemical and Veterinary Analytical Institute, Munsterland-Emscher-Lippe
High throughput with low effortEasily evaluate large sample batches for hundreds of target and suspect compounds with a single analysis method. MassHunter provides simultaneous quantitative measurement for calibrated compounds. It also lets you screen against high-resolution spectral libraries for suspect compounds with no calibration reference.
MassHunter includes Quant-My-Way customization options that display only the desired details for your workflow.
Now you can perform simultaneous target and suspect compound screening using one data analysis tool. The 7250, combined with our GC/Q-TOF Personal Compound Database and Library (PCDL) of pesticides and environmental pollutants, lets you qualitatively screen for over 1,000 compounds of interest. All without the need for chemical standards. A simplified workflow lets you customize any PCDL to expand your screening scope.
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Every day, new questions arise about the impact of humanity on the environment—and about the environment’s impact on us. The revolutionary technological enhancements in the 7250 are designed to provide meaningful answers with ease and efficiency.
– Retrospective processing lets you measure once and analyze repeatedly with full-spectrum data that you can interrogate for future emerging targets.
– Full-spectrum high resolution generates spectra across a broad mass range (up to 3,000 m/z) for congener detection and speciation.
– Low-energy electron ionization and chemical ionization transcend 70 eV EI while maintaining signal intensity with highly efficient interchangeable source designs. The designs are optimized to support ionization at various electron energies, as well as positive and negative analyte polarities.
Take the Fight to the Next Level
Environmental Testing
Be sure in your identification of unknownsMassHunter Unknowns Analysis software, using SureMass signal processing and exact-mass searching, gives you insight and accuracy beyond conventional deconvolution techniques. Even minor components are accurately extracted and identified in the presence of a dominating background signal.
Exact-mass accuracy for proposed fragment formulas lets you identify compounds with confidence, even when using MS libraries with nominal mass spectra from quadrupole MS systems.
The data shown here represents the trace detection of a pharmaceutical compound in surface water with a NIST library match combined with an exact-mass comparison.
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The data shown here depicts the trace detection of dibromophenyl ether with a match score of greater than 95 in complex combustion byproducts.
7250 GC/Q-TOF spectrum Sample matrix: surface water
Commercial library spectrum Compound: methoxsalen
Library match score: 88.7
O O
O
O
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Characterizing what’s in a complex sample is no simple task. It takes knowledge, insight, and the powerful analytical capabilities found in the Agilent 7250 GC/Q-TOF system. Capabilities like high-resolution accurate mass measurements, low-energy electron and chemical ionization options, fast spectral acquisition for comprehensive GC x GC compatibility, and highly sensitive MS/MS measurements.
– Fast acquisition rates let you characterize narrow chromatographic peaks or ultranarrow 2D GC peaks with data rates of up to 50 Hz and speed-independent resolving power.
– Spectral simplification allows you to deduce molecular ions for similar chemical species with soft GC/MS ionization options. You can confirm these ions by sensitive MS/MS measurements.
– High-resolution accurate mass product ion spectra, combined with powerful Molecular Structure Correlator software, yield insights on chemical structures.
Powerful Analytical Capabilities
Energy and Chemical
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4x10
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4
4.5+EI Scan (rt: 23.858-23.871 min, 5 scans)
162.0499
106.0783 145.101757.0704 126.140582.078370.0784 169.1950137.1333 152.1564
55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175
5x10
0
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+EI Scan (rt: 23.848-23.871 min, 8 scans)
162.0491
147.0265
106.0779128.062371.0856
115.054591.054781.070567.0544 111.117055.0547 137.1324 168.1870152.1540
Counts vs. mass-to-charge (m/z)55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175
Counts vs. mass-to-charge (m/z)
Spectral ambiguity is reduced with revolutionary low-energy electron ionization on the 7250. Based on the high-efficiency source found on the Agilent 5977 HES GC/MSD and 7010 GC/TQ platforms, the low-energy-capable electron ionization source greatly maintains compound analytical sensitivity while enabling a spectral tilt toward molecular ion. This example shows 3,5-dimethylbenzothiophene detected in gas oil, with identification facilitated by use of low-energy electron ionization.
Library spectrum Compound: 3,5-dimethylbenzothiophene
10 eV Sample matrix: gas oil
70 eV Sample matrix: gas oil
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Each day brings advances in human health and protection. The research that drives these advances requires painstaking experimental design and execution. Move your research forward with the Agilent 7250 GC/Q-TOF system, with full-spectrum, high-resolution data and powerful software.
Focus on What’s Important
Life Science Research
Complex data is changed into simplified results through powerful Mass Profiler Professional software. Differential analysis between sample groups brings focus to what is statistically important when performing comparative studies. Here, the data shows metabolite differences between mouse lung tissue of uninfected vs. tuberculosis-infected specimens at nine weeks. Progression is depicted through fold change analysis on a volcano plot for easy visualization.
Mass Profiler Professional software transforms complex data into clear resultsDifferential analysis between sample groups brings focus to what is statistically important when performing comparative studies. Here, we identified metabolite differences between tuberculosis-infected and uninfected mouse lung tissue at nine weeks. Progression is depicted through fold change analysis on a volcano plot for easy visualization.
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“The high-resolution Q-TOF MS, combined with the Mass Profiler software, has enabled us to study the different matrix components that coelute with the pesticides of interest.”
– Carmen Ferrer, PhD Analytical Department, University of Almeria
Metabolomics workflows: advance your study of systems biologyComplex metabolomic studies benefit from the full-spectrum analytical sensitivity and mass accuracy of the 7250, as well as its MS/MS ability to structurally elucidate unknown metabolites. The system’s extended dynamic range allows accurate, simultaneous quantification of metabolites present in a cell.
Pathway Architect, available with Mass Profiler Professional, brings a biological context to mass spectral data. With Pathway Architect, you can take results from single or multiple "omics" experiments and map them onto canonical biological pathways. You can concurrently analyze, picture, and interpret pathway information. This pathway-centric workflow speeds the route from discovery and insight to validation. It also enables you to efficiently plan and execute your next series of experiments.
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The advanced data mining and processing tools in our MassHunter suite help you to quickly and accurately extract available information from the analytes in your samples. You’ll experience unprecedented productivity with time-saving features.
– MassHunter's Find-by-Fragment capability enables targeted qualitative screening with at-a-glance results.
– Simple quantitative method creation is based on detecting qualified targets.
– Powerful multivariate analysis reduces data sets to differentiate relevant analytes.
It’s just one more way that Agilent supports your complete analytical workflow, from sample preparation to reporting.
Find the Answers You Seek
Agilent Software
Profile
MassHunter Acquisition software
– Familiar, flexible operation
– SWARM autotune for optimal performance with every sample
MassHunter Unknowns Analysis software
– High-quality compound detection and extraction based on SureMass signal processing
Mass Profiler Professional software
– Multivariate statistical analysis for chemometrics
– Visualization tools to quickly and clearly report results
Pathway Architect software
– Visually contextualize biological pathways from major sources using statistically relevant data
ID Browser software – Integrated compound
identification for entities of interest
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Screen
Personal Compound Database and Library (PCDL) manager
– Curated HRAM library of 1,000+ pesticides and environmental pollutants
– Easy annotations and compound additions
MassHunter Qualitative Analysis software
– Targeted qualitative screening using Find-by-Fragment and customizable spectral libraries for easy method development
MassHunter Quantitative Analysis software
– One-click compound import from MassHunter Qualitative Analysis
– Accurate quantification and SureMass signal processing
– Simultaneous target and suspect screening with an intuitive, unified workflow
MassHunter Reporting software
– Reporting solution customizable to your lab's needs
MassHunter Acquisition software
– Familiar, flexible operation
– SWARM autotune for optimal performance with every sample
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Discover
MassHunter Qualitative Analysis software
– High-quality compound detection and extraction
MassHunter Molecular Structure Correlator software
– Unknowns identification and structure elucidation
– Abundant online resources expand depth of search
MassHunter Acquisition software
– Familiar, flexible operation
– SWARM autotune for optimal performance with every sample
– Low-energy electron and chemical ionization for molecular ion enhancement
– MS/MS spectra for structural insight
Predict
MassHunter Unknowns Analysis software
– High-quality compound detection and extraction based on SureMass signal processing
Mass Profiler Professional software
– Multivariate statistical analysis for chemometrics
– Visualization tools to quickly and clearly report results
MassHunter Acquisition software
– Familiar, flexible operation
– SWARM autotune for optimal performance with every sample
MassHunter Classifier – Training and validation of
class prediction models for streamlined future classification
From routine testing to cutting-edge research, Agilent supports data analysis workflows with a suite of powerful software tools that deliver the answers your analytical success depends upon.
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CrossLab is an Agilent capability that integrates services, consumables, and lab-wide resource management to help laboratories improve efficiency, optimize operations, increase instrument uptime, develop user skill, and more. Our industry-leading services keep your instruments running at peak performance, and include technology refreshes, application consulting, repairs, preventive maintenance, compliance verification, and education.
Agilent CrossLab supports Agilent and select non-Agilent instruments and provides consultative support for workflow enablement, lab analytics, compliance, inventory management, and asset management, including relocation services.
Learn more about Agilent CrossLab, and see examples of insight that leads to great outcomes, at www.agilent.com/crosslab
Learn more: www.agilent.com/chem/gcms-qtof
Find a local Agilent customer center in your country: www.agilent.com/chem/contactus
U.S. and Canada 1-800-227-9770 [email protected]
Europe [email protected]
Asia Pacific [email protected]
For Research Use Only. Not for use in diagnostic procedures.
This information is subject to change without notice.
© Agilent Technologies, Inc. 2019 Published in the USA, June 20, 2019 5991-8109EN
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