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ObjectiveTo establish a rapid and stable liquid chromatography-mass spectrometry(LC-MS) for simultaneous analysis of 17 chemical components in Gnaphalium affine aboveground parts with flowers, so as to provide experimental basis for improving the quality standard of this herb. MethodUltra performance liquid chromatography-quadrupole/electrostatic field orbitrap mass spectrometry(UPLC-Q-Exactive Orbitrap MS) was used for the quantitative analysis of 17 constituents in 15 batches of G. affine from different origins, the separation was performed on an ACQUITY UPLC® BEH C18 column(2.1 mm×100 mm, 1.7 μm) with the mobile phase of methanol(A)-0.1% formic acid aqueous solution(B) for gradient elution(0-1.0 min, 8%A; 1.0-4.0 min, 8%-26%A; 4.0-9.0 min, 26%A; 9.0-14.0 min, 26%-34%A; 14.0-14.5 min, 34%-45%A; 14.5-15.0 min, 45%-60%A; 15.0-18.0 min, 60%-90%A; 18.0-19.0 min, 90%A; 19.0-19.01 min, 90%-8%A; 19.01-20.0 min, 8%A), the flow rate was 0.3 mL·min-1, the column temperature was 40 ℃ and the injection volume was 2 μL. And the electrospray ionization was used with full scanning in both positive and negative ion modes, and the scanning range was m/z 100-1 000. ResultThe established method has been verified by the methodology and could be used for the simultaneous quantification of 17 components in G. affine. The content ranges of the 17 components(quinic acid, gallic acid, protocatechuic acid, neochlorogenic acid, chlorogenic acid, cryptochlorogenic acid, caffeic acid, 1,3-O-dicaffeoylquinic acid, isochlorogenic acid A, isoquercitrin, 1,5-O-dicaffeoylquinic acid, apigenin-7-O-glucoside, astragalin, isochlorogenic acid C, luteolin, apigenin and hispidulin) in 15 batches of G. affine samples was 39.60-179.12, 0.17-0.84, 2.41-8.38, 4.33-31.50, 13.63-180.38, 2.43-14.75, 1.16-19.68, 0.49-5.63, 55.77-445.16, 0.23-10.26, 62.04-530.10, 1.11-18.01, 11.36-90.61, 12.22-65.98, 7.22-69.84, 3.37-45.65, 0.30-2.59 μg·g-1, respectively. The content of organic acids was higher than that of flavonoids in G. affine, and the contents of 1,5-O-dicaffeoylquinic acid, isochlorogenic acid A, quinic acid and chlorogenic acid were higher. Meanwhile, the content of flavonoids in the samples from Guizhou was higher than that from Jiangsu, while the content of organic acids in the samples from Jiangsu was higher than that from Guizhou. ConclusionThe established method can be used for the rapid and accurate determination of 17 components in G. affine, which clarifies the content range of the main components in this herb, and can provide a reference for the selection of quality control markers of G. affine.
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ObjectiveTo establish the specific chromatogram and thin layer chromatography(TLC) of Qingxin Lianziyin(QXLZY) benchmark samples, in order to clarify the key quality attributes and provide a reference for the quality evaluation of QXLZY. MethodHigh performance liquid chromatography(HPLC) specific chromatogram of QXLZY benchmark samples was developed by using a YMC Hydrosphere C18 column(4.6 mm×250 mm, 5 μm) with the mobile phase of acetonitrile(A)-0.2% formic acid aqueous solution(B) for gradient elution(0-10 min, 5%-20%A; 10-20 min, 20%A; 20-25 min, 20%-24%A; 25-40 min, 24%-30%A; 40-55 min, 30%-50%A; 55-65 min, 50%-100%A; 65-75 min, 100%A; 75-75.1 min, 100%-5%A; 75.1-90 min, 5%A), and the detection wavelength was 360 nm. Ultra-high performance liquid chromatography-linear ion trap/orbitrap mass spectrometry(UHPLC-LTQ-Orbitrap MS) with electrospray ionization(ESI) was used to identify the components of QXLZY benchmark samples by accurate relative molecular weight and multilevel MS fragment ion information, the detection conditions were positive and negative ion modes and data dependency scanning mode. TLC identification methods for Ophiopogonis Radix, Lycii Cortex, Nelumbinis Semen, Poria, Astragali Radix and Ginseng Radix et Rhizoma in QXLZY were established. ResultA total of 15 characteristic peaks were identified from Glycyrrhizae Radix et Rhizoma, Plantaginis Semen and Scutellariae Radix, and the relative standard deviations of the retention times of 15 characteristic peaks in 15 batches of QXLZY benchmark samples were≤3% with peak 8(baicalin) as the reference peak. A total of 100 compounds, including flavonoids, organic acids, saponins, amino acids and others, were identified in the benchmark samples by UHPLC-LTQ-Orbitrap MS. The established TLC had good separation and was suitable for the identification of Ophiopogonis Radix, Lycii Cortex, Nelumbinis Semen, Poria, Astragali Radix and Ginseng Radix et Rhizoma in QXLZY. ConclusionThe material basis of QXLZY benchmark samples is basically determined by MS designation and source attribution. The established specific chromatogram and TLC of QXLZY are simple, stable and reproducible, which can provide a reference for the development and quality control of QXLZY.
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This study aims to explore the chemical composition of Rehmanniae Radix braised with mild fire and compare the effect of processing method on the chemical composition of Rehmanniae Radix. To be specific, ultra-high performance liquid chromatography with linear ion trap-orbitrap mass spectrometry(UHPLC-LTQ-Orbitrap MS) was used to screen the chemical constituents of Rehmanniae Radix. The chemical constituents were identified based on the relative molecular weight and fragment ions, literature information, and Human Metabolome Database(HMDB). The ion peak area ratio of each component before and after processing was used as the index for the variation. SIMCA was employed to establish principal component analysis(PCA) and orthogonal partial least squares discriminant analysis(OPLS-DA) models of different processed products. According to the PCA plot, OPLS-DA plot, and VIP value, the differential components before and after the processing were screened out. The changes of the content of differential components with the processing method were analyzed. A total of 66 chemical components were identified: 57 of raw Rehmanniae Radix, 55 of steamed Rehmanniae Radix, 55 of wine-stewed Rehmanniae Radix, 51 of repeatedly steamed and sundried Rehmanniae Radix Praeparata, 62 of traditional bran-braised Rehmanniae Radix, and 63 of electric pot-braised Rehmanniae Radix. Among them, the 9 flavonoids of braised Rehmanniae Radix were from Citri Reticulatae Pericarpium. PCA suggested significant differences in the chemical composition of Rehmanniae Radix Praeparata prepared with different processing methods. OPLS-DA screened out 32 chemical components with VIP value >1 as the main differential components. Among the differential components, 9 were unique to braised Rehmanniae Radix(traditional bran-braised, electric pot-braised) and the degradation rate of the rest in braised(traditional bran-braised, electric pot-braised) or repeatedly steamed and sundried Rehmanniae Radix was higher than that in the steamed or wine-stewed products. The results indicated the chemical species and component content of Rehmanniae Radix changed significantly after the processing. The 32 components, such as rehmapicrogenin, martynoside, jionoside D, aeginetic acid, hesperidin, and naringin, were the most important compounds to distinguish different processed products of Rehmanniae Radix. The flavonoids introduced by Citri Reticulatae Pericarpium as excipient may be the important material basis for the effectiveness of braised Rehmanniae Radix compared with other processed products.
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Humanos , Cromatografia Líquida de Alta Pressão , Medicamentos de Ervas Chinesas/química , Extratos Vegetais/química , Rehmannia/química , Flavonoides/análiseRESUMO
Simiao Yong'an Decoction is a classic prescription for treating gangrene. Modern medical evidence has proven that Si-miao Yong'an Decoction has therapeutic effects on atherosclerosis(AS), vascular occlusion angeitides, and hypertension, while its pharmacodynamic mechanism remains unclear. The evidence of network pharmacology, molecular docking, literature review, and our previous study suggests that luteolin and kaempferol are two major flavonoids in Simiao Yong'an Decoction and can inhibit macrophage inflammation and exert anti-AS effects. However, due to lack of the metabolism studies in vivo, little is known about the metabolic characteristics of luteolin and kaempferol. This study employed ultra-performance liquid chromatography coupled with linear ion trap-Orbitrap mass spectrometry(UHPLC-LTQ-Orbitrap MS/MS) and relevant software to identify the metabolites and metabolic pathways of luteolin and kaempferol in rat plasma, urine, and feces, after oral administration of luteolin and kaempferol, respectively. After the administration of luteolin, 10, 11, and 3 metabolites of luteolin were detected in the plasma, urine, and feces, respectively. After the administration of kaempferol, 9, 3, and 1 metabolites of kaempferol were detected in the plasma, urine, and feces, respectively. The metabolic pathways mainly involved methylation, glucuronidation, and sulfation. This study enriches the knowledge about the pharmacological mechanism of luteolin and kaempferol and supplies a reference for revealing the metabolic process of other flavonoids in Simiao Yong'an Decoction, which is of great significance for elucidating the pharmacological effects and effective substances of this decoction in vivo.
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Ratos , Animais , Espectrometria de Massas em Tandem/métodos , Luteolina/análise , Medicamentos de Ervas Chinesas/química , Quempferóis/análise , Cromatografia Líquida de Alta Pressão/métodos , Simulação de Acoplamento MolecularRESUMO
ObjectiveTo characterize the chemical constituents of Dayuanyin based on ultra-performance liquid chromatography-quadrupole/electrostatic field orbitrap mass spectrometry(UPLC-Q-Exactive Orbitrap MS). MethodThe detection was performed on a Thermo Acclaim™ RSLC 120 C18 column(2.1 mm×100 mm, 2.2 μm), the mobile phase was acetonitrile(A)-0.1% formic acid aqueous solution(B) for gradient elution (0-7.5 min, 10%-19%A; 7.5-12 min, 19%-22.5%A; 12-23 min, 22.5%-27%A; 23-27 min, 27%-56%A; 27-35 min, 56%-84%A; 35-36 min, 84%-90%A), the flow rate was 0.3 mL·min-1, and the column temperature was 30 ℃. The data were collected in the positive and negative ion modes by heated electrospray ionization(HESI), and the detection range was m/z 80-1 200. Combining the retention time of the reference substance, fragment ions, databases such as PubChem and related literature, Xcalibur 3.0 was used to identify the chemical constituents of Dayuanyin. ResultA total of 161 compounds were identified, including 14 alkaloids, 60 flavonoids, 16 terpenoids, 26 saponins, 18 phenylpropanoids, 16 organic acids and 11 others. ConclusionThe established method can effectively and quickly identify the chemical components in Dayuanyin, and clarify its chemical composition, which can provide a basis for the development of compound preparations of this famous classical formula.
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OBJECTIVES@#To establish a method to identify unknown sample based on the combined use of Fourier transform infrared spectroscopy (FTIR), gas chromatography-quadrupole time-of-flight mass spectrometry (GC-QTOF-MS), ultra-high performance liquid chromatography-linear ion trap quadrupole-orbitrap mass spectrometry (UPLC-LTQ-Orbitrap MS) and 1H-nuclear magnetic resonance spectroscopy (1H-NMR) technique.@*METHODS@#The unknown sample was directly analyzed by FTIR. The unknown sample was dissolved in methanol solution containing internal standard SKF525A and the supernatant was detected by GC-QTOF-MS and UPLC-LTQ-Orbitrap MS. The unknown sample was dissolved in methanol-d4 solution for structural analysis of 1H-NMR.@*RESULTS@#The characteristic absorption peaks of FTIR spectra obtained from unknown sample were 1 682 (C=O bond), 1 503, 1 488, 1 436, 1 363, 1 256, 1 092, 1 035, 935, 840 and 800 cm-1, the characteristic fragment ions (m/z) of GC-QTOF-MS were 86.096 4 (base peak), 58.065 1, 149.023 5, 121.028 6 and 65.038 6, the accurate mass [M+H]+ detected by UPLC-LTQ-Orbitrap MS was 236.127 7. The sample was identified as synthetic cathinone new psychoactive substance Eutylone by 1H-NMR.@*CONCLUSIONS@#The method established in this study can be used for structural confirmation of Eutylone.
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Metanol , Cromatografia Líquida de Alta Pressão/métodos , Espectrometria de Massas , Cromatografia Gasosa-Espectrometria de Massas/métodos , Espectroscopia de Ressonância MagnéticaRESUMO
Objective@#To determine human tear proteins using nanoliter liquid chromatography coupled to quadrupole orbitrap mass spectrometry (NanoLC-Q-Orbitrap-MS), and perform a bioinformatics analysis of main proteins.@*Methods@#Human tear samples were collected with capillary, transferred to 3 kDa ultrafiltration tubes containing 400 μL of superpure water and centrifuged at 12 000×g for 15 min. Repeated extraction of tear proteins were performed four times, and following digestion with trypsin, the proteins were separated using the Waters NanoAcquity peptide BEH C18 column (1.7 μm, 100 μm×100 mm) and determined using NanoLC-Q-Orbitrap-MS with the mobile phase of 0.1% formic acid aqueous solution and acetonitrile (0.1% formic acid) in the full MS/dd-MS2 mode. The types of proteins were characterized in the Uniprot database using the software Proteome Discoverer version 2.1 and verified using bovine serum albumin. The tear proteins were subjected to gene annotation analysis using the String database.@*Results@#A total of (387±160) human tear proteins were yielded, with a relative standard deviation (RSD) of 4.13%, and there were 25 types of proteins with a relative high abundance, including lipocalin 1, lysozyme and lactoferrin. The peptide sequence coverage of bovine serum albumin was (86.08±2.61)%, with a RSD of 3.03%. The 25 major tear proteins were involved in substance transduction among cells, homeostasis process, negative regulation of the endopeptidase activity, detection of chemical stimulants and humoral immune responses, and the 16 proteins had close interactions. Lacritin, lipocalin 1, lactoferrin, lysozyme and zinc-α 2-glycoprotein, which had a relative high abundance, had close biological connections.@*Conclusion@#NanoLC-Q-Orbitrap-MS is stable, reliable and feasible for detection of multiple proteins in tears.
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Objective To analyze the chemical compounds of Shenqi Dihuang decoction by the ultraperformance liquid chromatography coupled with linear quadrupole ion trap-orbitrap mass spectrometry (UPLC-LTQ-Orbitrap-MS). Methods Warters ACQUITY UPLC HSS T3 (2.1 mm ×100 mm, 1.8 μm) was used as chromatographic column with mobile phase: 0.1% formic acid water (A)-0.1% formic acid acetonitrile (B) with gradient elution, and flow rate was 0.3 ml/min. Electrospray ion source (ESI) and an electrostatic field orbital ion trap mass analyzer were adopted, which was used to collect mass spectrometry fragment information with positive and negative ion modes, by comparing with the relative retention time of the reference substance. In addition, the fragment information of the mass spectrum was used to identify the compounds. The accurate identification of the chemical components in Shenqi Dihuang decoction was confirmed with literature. Results The study found that UPLC-LTQ-Orbitrap-MS technology could be used to identify 62 chemical components, including 13 aromatic acids, 9 flavonoids, 8 saponins, and 5 aromatic amines, 3 keto acids, 2 phenols, 1 aromatic quinone and other ingredients in Shenqi Dihuang decoction. Conclusion The identification analysis method in this study was efficient and accurate, which could be applied to the identification and analysis of chemical components in Shenqi Dihuang decoction and provided the important experimental data for the research on the material basis and mechanism.
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Objective To detect the uncontrolled new psychoactive tryptamines involved in drug-related cases with high resolution mass spectrometry and nuclear magnetic resonance spectroscopy. Methods White and brown powder obtained in actual cases were extracted and analyzed by gas chromatography-quadrupole time-of-flight mass spectrometry (GC-QTOF-MS), ultra-high performance liquid chromatography-linear ion trap quadrupole-orbitrap mass spectrometry (UPLC-LTQ-Orbitrap MS) and 1H-nuclear magnetic resonance spectroscopy (1H-NMR). Results After detection by GC-QTOF-MS, the components of white powder showed main characteristic fragment ion peaks at m/z 218.141 0 (molecular ion peak), 72.080 6 (base peak), etc. After detection by UPLC-LTQ-Orbitrap MS, its protonated molecular ion was m/z 219.149 4. The main ions in the secondary mass spectrum under the collision-induced dissociation (CID) mode were m/z 160.076 3 and 72.080 8. After detection by GC-QTOF-MS, the components of brown powder showed main characteristic fragment ion peaks at m/z 246.135 7 (molecular ion peak), 58.065 1 (base peak), etc. After detection by UPLC-LTQ-Orbitrap MS, its protonated molecular ion was m/z 247.145 0. The main ions in the secondary mass spectrum under CID mode were m/z 202.087 1, 160.076 3 and 134.060 5. NIST 17 library retrieval and 1H-NMR confirmed that the white powder and brown powder contained new psychoactive tryptamines 4-OH-MET and 4-AcO-DMT, respectively. Conclusion GC-QTOF-MS, UPLC-LTQ-Orbitrap MS and 1H-NMR can be used together to identify unknown new psychoactive substances.
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Cromatografia Líquida de Alta Pressão , Cromatografia Gasosa-Espectrometria de Massas , Espectroscopia de Ressonância Magnética , Espectrometria de Massas , TriptaminasRESUMO
Objective@#To establish the ultra-high performance liquid chromatography coupled with quadrupole orbitrap mass spectrometry ( UPLC-Q-Orbitrap-MS ) for the analysis of allergen protein in Macrobrachium. @*Methods@#Based on the strategy of bottom-up protein analysis, the proteins in Macrobrachium samples were extracted by Tris-HCl, digested by trypsin at 40 ℃ for 6 hours, separated by chromatography, and analyzed by Q-Orbitrap-MS spectrometry ( Full MS/dd-MS2, TopN=10 ) . Allergen proteins were identified with UniProt protein database and Proteome Discoverer software. @*Results@# Four kinds of allergen proteins were obtained, which were tropomyosin, arginine kinase, sarcoplasmic calcium binding protein and hemocyanin. The coverage rates of peptides in proteins were 53%, 36%, 12% and 12%, respectively. Post translation modifications were methylation of aspartic acid (D), deacylylation of aspartic acid ( N ) , glutamyl ammonia ( Q ) and oxidation of methionine ( M ) .@*Conclusions@#The UPLC-Q-Orbitrap-MS can identified abundant peptide and fragment information with high sensitivity and resolution, which provides a technical support for the analysis of shrimp allergens.
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OBJECTIVE:To establish HPLC-quadrupole/electrostatic field orbitrap high resolution mass spectrometry for rapid determination of aconitine,mesaconitine,hypaconitine,benzoylaconitine,benzoylmesaconine and benzoylhypacoitine in rat plasma. METHODS:Internal standard lappaconitine was added into plasma sample,and methanol precipitated protein was used for pretreatment. HPLC-quadrupole/electrostatic field orbitrap high resolution mass spectrometry was adopted. HPLC condition was as follows as Sinochrom ODS-BP C18column,mobile phase consisted of acetonitrile-1% formic acid solution(50:50,V/V),the flow rate of 0.6 mL/min,sample size of 10 μL,column temperature of 25 ℃,automatic sampler temperature of 4 ℃. Mass spectrum scanning mode was full ion monitoring model,positive ion acquisition,mass charge ratios(m/z)of ion were 646.32(aconitine), 632.30(mesaconitine),616.31(hypaconitine),604.31(benzoylaconitine),590.29(benzoylmesaconine),574.30(benzoylhypacoitine), 585.31(internal standard). Six male Wistar rats were collected and given single dose of total alkaloid extract of Aconitum carmichaeli(4 mg/kg)intragastrically. Blood samples were collected before medication(0 h)and 0.5,0.75,1.25,1.5,2,4,6, 8,10,24 h after medication. Plasma concentration was determined and pharmacokinetic parameters were calculated by using PK-Solver V2.0 software. RESULTS:The linear range of 6 kinds of aconitum alkaloids in plasma were 0.1-10 μ g/L(r>0.992). The limit of quantitation was 0.1 μ g/L. Average recovery was higher than 75%,RSDs of intra-day and inter-day,matrix effects,stability test were all lower than 15%. The tmaxof 6 kinds of aconite alkaloids were about 1.2 h;t1/2were about 10 h;cmaxof monoestertype aconite alkaloids were higher than those of diester-type aconite alkaloids. CONCLUSIONS:Established HPLC-quadrupole/electrostatic field orbitrap high resolution mass spectrometry is accurate,sensitive,simple and rapid, and can be used for plasma concentration monitoring of 6 kinds of aconitum alkaloids.
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Objective: An ultra-high performance liquid chromatography coupled with hybrid quadrupole-orbitrap mass spectrometry (UPLC- hybrid quadrupole-orbitrap MS) method was developed to rapidly analyze and identify the chemical constituents from the roots of Gentiana crasicaulis. Methods: The 100% methanol extract was separated on an ACQUITY UPLC BEH C18 column (100 mm ×, 2.1 mm, 1.7 μm), and eluted with a gradient of methanol-water containing 0.1% formic acid. Constituents in the roots of G. crasicaulis were identified by HRMS in the positive and negative ion modes using both full scan and two-stage threshold-triggered mass modes. Results: A total of 34 compounds, including 13 iridoids, 5 flavonoids, 5 esters, 3 triterpenoids, 2 organic acids, 1 phenylpropanoid, and 5 others compounds were identified. Among them, 12 compounds were unambiguously identified by comparing with reference standards. Fifteen compositions wre reported for the first time in the roots of G. crasicaulis. Conclusion: Chemical constituents in the roots of G. crasicaulis were identified fast with UPLC-Q-Exactive hybrid quadrupole-orbitrap mass spectrometer technology to provide the scientific basis for the study on the material basis of the separation and crassicaulis chemical constitents.
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To determine 13 flavonoids and glycyrrhizic acid in licorice (Glycyrrhiza spp.), several samples from different areas were examined by HPLC-DAD analysis. The analysis was performed on a Zorbax Extend-C18 (250 mm × 4.6 mm, 5 μm) column connected with a Zorbax Extend guard column (20 mm × 4.6 mm, 5 μm). The mobile phase consisted of (A) acetonitrile and (B) 0.026% aqueous H3PO4 (VV) using a gradient elution of 20%-25% A at 0-20 min, 25%-33% A at 20-30 min, 33%-50% A at 30-55 min, 50%-60% A at 55-65 min, and 60% A between 65 min and 80 min, and peaks were detected at 280 nm. The fourteen compounds were assigned by HPLC-Orbitrap MS methods. The regression coefficient for the linear equations for the 14 compounds ranged between 0.9998 and 1. The limits of detection and quantification lay in the range of 0.032-2.461 and 0.154-8.202 μg·mL(1), respectively. The relative recovery rates for the 14 compounds were in the range of 93.90%-106.73% with RSDs being less than 5%. Coefficient variations for intra-day and inter-day precisions were in the range of 0.27%-2.38% and 0.31%-3.51%, respectively. In summary, the validated method was applied to the simultaneous determination of the 14 components in 29 different licorice samples and was proven to be suitable for quality evaluation of licorices and their active fractions.