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ObjectiveTo clone coumarate-3-hydroxylase gene (C3H) from Angelica sinensis, and analyze the correlation between its bioinformatics, expression patterns and content of ferulic acid, and to explore the functions of ASC3H. MethodReal-time polymerase chain reaction (Real-time PCR) was used to clone the full-length cDNA of ASC3H based on the transcriptome dataset of A. sinensis, and the bioinformatics analysis of the gene sequence was carried out. Real-time PCR and high performance liquid chromatography (HPLC) were used to determine relative expression of ASC3H and content of ferulic acid in different root tissues of A. sinensis (periderm, cortex and stele). ResultThe open reading frame (ORF) of ASC3H (GenBank accession number: MN2550298) was 1 530 bp, encoding 509 amino acids, with a theoretical molecular weight of 57.86 kDa and an isoelectric point of 8.36. It was a hydrophilic protein that was located in the chloroplast with multiple phosphorylation sites and a transmembrane region, and contained a conserved domain CGYDWPKGYGPIINVW_P450 (383-399 aa) in cytochrome P450. Multiple amino acid sequence alignment analysis showed that ASC3H had high similarity with C3H from other plants, especially Ammi majus in Umbelliferae. The Real-time PCR revealed that ASC3H had different expressions in periderm, cortex and stele tissues of A. sinensis roots. It was found from HPLC that the cortex tissues had the highest content of ferulic acid, and the stele tissues had the lowest. ConclusionASC3H was successfully cloned from A. sinensis, and its sequence characteristics were understood more clearly, suggesting that ASC3H might be involved in the ferulic acid biosynthesis pathway of A. sinensis. This paper provided a basis for further studying the functions of the gene and exploring the biosynthesis and regulation mechanism of ferulic acid in A. sinensis, while laying the foundation for the genetic improvement of A. sinensis.
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Objective To establish a method for the determination of cisatracurium besylate in human plasma by UPLC-MS/MS which could be used in the monitoring of drug residual in plasma of elderly patients after operation. Methods The samples were precipitated with 0.1% formic acid-acetonitrile solution and separated by an SHISEIDO ADME column(3.0 mm×100 mm, 2.7 μm) for isocratic elution with the mobile phase of water containing 0.1% formic acid with 2 mmol/L ammonium acetate and acetonitrile (30:70, V/V). MS condition was optimized in the positive ion detection mode by multiple reaction monitoring (MRM), along with the Agilent jet stream electrospray source interface (AJS-ESI). The precursors to the product ion transitions were m/z 464.3→358.2 for cisatracurium besylate and m/z 557.4→356.3 for vecuronium bromide (the internal standard, IS). Plasma samples of elderly patients undergoing spinal surgery were collected after anesthesia induction, at the end of surgery, 0.5 h and 1 h after surgery, and from the blood bags while autologous blood transfusion, and stored in cryopreservation tubes with 2% formic acid solution. Then the contents of cisatracurium besylate were determined. The effects of autogenous blood transfusion on plasma concentration of cisatracurium besylate in elderly patients after surgery evaluated. Results The calibration curve was linear in the range of 20-5 000 ng/ml for cisatracurium besylate in human plasma, r=0.999 7. The intra-day and inter-day precision and accuracy were good (RSD<10%, RE<±10%). The matrix effect of different concentrations was 71.88%~80.64%. The recovery of different concentrations was 83.62%~88.87%. The recovery of vecuronium bromide (IS) was 125.91%, which conformed with the requirement of methodological validation. There was a certain degree of residual cisatracurium besylate in the plasma of elderly patients, so the extubation time should be strictly controlled and the stay time of patients in the anesthesia recovery room should be appropriately extended. Conclusion The method is sensitive, accurate, and efficient, which could be used for the determination of cisatracurium besylate in human plasma of elderly patients after operation.
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OBJECTIVE To establish the quality standard of Clinopodium gracile. METHODS Ten batches of C. gracile were collected to perform appearance and property identification, microscopic identification and thin layer chromatography (TLC) identification. Moisture, total ash, acid-insoluble ash and dilute ethanol extract were detected, and the content of rosmarinic acid was determined by HPLC. RESULTS The stem of C. gracile was slender, square columnar, covered by white fluff, the surface was grayish green or greenish brown; epidermal cells, non-glandular hairs, cortical cells and so on were seen in the cross section of the stem. Non-glandular hairs, ducts, wood fibers, mesophyll cells and so on could be seen in the powder. Results of TLC identification showed that there were spots of the same color in the chromatographic position corresponding to the chromatographic position of buddlejasaponin Ⅳb control. The contents of water, total ash, acid-insoluble ash, dilute ethanol extract and rosmarinic acid in 10 batches of samples were 8.69%-12.33%, 5.96%-13.33%, 0.14%-3.29%, 18.57%-32.61%, 0.35%-0.82%, respectively. The average values were 10.10%, 9.73%, 1.06%, 23.54% and 0.56%, respectively. CONCLUSIONS The established method can be used for quality control of C. gracile. It is preliminarily proposed that the ash content in the herb should not exceed 12.0%, the total ash content should not exceed 12.0%, the acid-insoluble ash content should not exceed 1.5%, the dilute ethanol extract should not be less than 18.0%, and the rosmarinic acid content should not be less than 0.45%.
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Based on ultra high-performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS), a rapid and simultaneous quantitative method for the measurement of seven components (kinsenoside; rutin; kaempferol-3-O-rutinoside; quercimeritrin; narcissin; isorhamnetin-3-O-glucoside; quercetin) of A. roxburghii was established. The separation was performed over 8.0 minutes on a Waters Acquity UPLC BEH Shield RP18 (2.1 mm × 100 mm; 1.7 μm) with a mobile phase consisting of acetonitrile (A) and 0.1% formic acid water solution (B) with gradient elution at a flow rate of 0.2 mL·min-1; the column temperature was 30 ℃ and the injection volume was 2 μL. Electrospray spray ionization source (ESI source) was used for mass spectrometry, and positive and negative ion modes were detected at the same time. The results showed good linearity (R2 ≥ 0.998 0), with good precision, repeatability and stability, and the average recovery was 97.71%-103.33%. Through cluster heat map and redundancy analysis, we found that kinsenoside was mainly distributed in stems, followed by leaves, and the lowest content in roots. The content of kinsenoside increased significantly in the stems of plants 6 months, but less change was evident in the roots and leaves. Flavonoids and flavonoid glycosides were mainly distributed in leaves. The UHPLC-MS/MS method established in this paper can be used for the quality control of A. roxburghii and provides a reference for establishing a more comprehensive quality detection method for this medicinal.
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Objective To optimize the microwave-assisted extraction process of green tea polyphenols. Methods The extraction yield of tea polyphenols was figured up by building the standard curve of gallic acid and examining the concentration of tea polyphenols in green tea extract with the introduction of a correction factor. The effects of four single factor levels of microwave extraction time, microwave output power, liquid-to-material yield, and ethanol volume fraction on the extraction yield of tea polyphenols were primarily studied in this experiment. The response surface was applied to further optimize the extraction process of green tea polyphenols after exploring the appropriate range of four single factor levels. Results The optimal extraction process was as follows: extraction time 37 s, microwave output power 350 w, material - liquid yield 1∶45 (g/ml), ethanol volume fraction 55%, and the actual extraction yield of tea polyphenols was 25.65%, which was not much different from the theoretical value. Conclusion The microwave-assisted green tea polyphenol extraction process optimized by response surface methodology is time-saving and practicable, and the extraction yield is high.
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OBJECTIVE To evaluate the qualit y of Xihuang pills ,and to screen the differential markers affecting its quality . METHODS Using muskone as internal reference ,the content of α-pinene and other 4 components were determined by quantitative analysis of multi -components by single marker (QAMS),and compared with the results of external standard method . The fingerprints of 13 batches of Xihuang pills were established by gas chromatography (GC)method. Cluster analysis (CA)and orthogonal partial least squares discriminant analysis (OPLS-DA) were performed by SPSS 25.0 software and SIMCA 14.1 software. The variable importance projection (VIP)value greater than 1 was used as the standard to screen differential markers affecting the quality of the samples . RESULTS The contents of α-pinene,octyl acetate and β-elemene measured by QAMS were 0- 0.628 4,0.378 0-2.679 4 and 0.320 9-0.815 4 mg/g,respectively. The contents of α-pinene,octyl acetate ,β-elemene and musk ketone measured by external standard method were 0.001 5-0.627 1,0.378 0-2.594 7,0.329 2-0.837 0 and 0.385 7-0.806 0 mg/g, respectively. The relative error of the content determination results of the two methods was less than 4%. There were 26 common peaks in 13 batches of Xihuang pills ,and 3 common peaks ,such as octyl acetate ,β-elemene and musk ketone ,were identified ; their similarities were 0.912-0.946. 13 batches of samples could be divided into two categories (S1-S2,S6-S10,S13 were clustered into one category and S 3-S5,S11-S12 were clustered into one category ). VIP values of peak 7,11,10,17 and 16 were all greater than 1. CONCLUSIONS The content of 4 components such as α-pinene in Xihuang pills combined with GC fingerprint and chemical pattern recognition analysis can be used to evaluate the quality of Xihuang pills . The components corresponding to 5 common peaks such as peak 7 may be differential markers affecting the quality of the samples .
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This study establishes a quantitative analysis of multi-components by single marker (QAMS) method for the simultaneous determination of gallic acid, sodium danshensu, protocatechuic acid, protocatechuic aldehyde, vanillin, rosmarinic acid, salvianolic acid B, eugenol, cryptotanshinone and tanshinone IIA in Guanxinshutong capsules (Bambusae Concretio Silicea, Salvia miltiorrhiza, clove, borneol, Bambusae Concretio Silicea) by HPLC. Sample was loaded onto an Agilent C18 (ZORBAX Extend-RP C18, 250 mm × 4.6 mm, 5 µm) column and eluted with methanol-0.4% aqueous formic acid solution as a flow phase gradient, flow speed 1.0 mL·min-1, detection wavelength 280 nm, column temperature 35 ℃ and sample intake of 5 µL. Using protocatechuic acid as the internal reference, a relative correction factor was calculated and the durability was investigated, and the content of 10 components was calculated by QAMS and external standard method (ESM). The results show that the specificity, linear relationship, precision, repeatability, and stability of the 10 components were good. The average recovery was 98.20%-103.47% and RSD was 1.26%-2.84%. The relative positive factors and contents of the other nine components were calculated as gallic acid (0.759, 227.381), sodium tanshinol (3.630, 3.283), protocatechualdehyde (0.185, 0.150), vanillin (0.532, 65.213), rosmarinic acid (4.240, 1.035), salvianolic acid B (3.245, 18.204), eugenol (1.729, 9.265), cryptotanshinone (0.691, 1.449), and tanshinone ⅡA (0.702, 1.939). The results of QAMS were consistent with ESM analysis, and the relative error was between -3% and 3%. This method is stable and reliable, and can be used for the determination of 10 components in Guanxinshutong capsules.
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OBJECTIVE To e stablish the fingerprint of Qings hen tiaozhi xiaoke tablets (QTXT)and carry out the analysis of chemical pattern recognition ,and determine the contents of seven active components simultaneously. METHODS Using coptisine hydrochloride as reference ,the Similarity Evaluation System for Chromatographic Fingerprint of TCM (2012 edition)was utilized to establish the HPLC fingerprints of 13 batches of QTXT and analyze their similarity. The common peaks were confirmed by comparing with the chromatogram of the mixed control ;the attribution of the common peak was determined by comparing the chromatograms of the sample solutions of single decoction pieces and negative sample solutions ;using SPSS 22.0 and SIMCA 14.1 software,cluster analysis (CA),principal component analysis (PCA)and orthogonal partial least squares-discriminant analysis (OPLS-DA)were carried out ,and the markers affecting the quality of QTXT were screened ,using the variable importance in projection(VIP)value greater than 1 as the standard. Using coptisine hydrochloride as internal reference ,the contents of naringin , hesperidin,neohesperidin,berberine hydrochloride ,palmatine hydrochloride and lovastatin were determined by quantitative analysis of multicomponents by single marker (QAMS),and then compared wi th the result s(except for coptisine hydrochloride ) of external standard method. RESULTS There were 17 Δ 基金项目:江苏省“双创团队”项目[No.(2018)2024号] *硕士研究生。研究方向:中药新药药学。E-mail:2769544062@ common peaks in 13 batches of QTXT ,and the similarity was qq.com 0.987-0.999. Seven chromatographic peaks were identified , # 通信作者:副研究员,硕士生导师,博士。研究方向:中药药剂 namely naringin (peak 4), hesperidin (peak 5), 学。E-mail:tsliur411@sina.com neohesperidin(peak 6),coptisine hydrochloride (peak 8), ·1204· China Pharmacy 2022Vol. 33 No. 10 中国药房 2022年第33卷第10期 palmatine hydrochloride (peak 9),berberine hydrochlo ride(peak 10),lovastatin(peak 14). Peaks 7-10 were the exclusive peaks of Coptis chinensis ;peaks 3-6 and 11-13 were the exclusive peaks of bran-fried Fructus aurantii ;peak 14 was the exclusive peak of Monascus purpureus ;peak 1 was the common peak of C. chinensis and M. purpureus . Peak 2 and 15 were the common peak of bran-fried F. aurantii and M. purpureus ;peaks 16 and 17 were the common peaks of 6 traditional Chinese medicines. The results of CA showed that 13 batches of QTXT could be divided into three categories ,S2 was clustered into one category ,S1,S9,S10 were clustered into one category ,S3-S8 and S 11-S13 were clustered into one category. The results of PCA showed that accumulative variance contribution of the first three principal components was 85.120%. Compared with CA ,S1 was further distinguished from S9 and S 10 by PCA. OPLS-DA showed that 7 common peaks with VIP value greater than 1(from large to small )were peak 10 (berberine hydrochloride ),peak 9(palmatine hydrochloride ),peak 5(hesperidin),peak 11 and peak 8(coptisine hydrochloride ), peak 12 and peak 6(neohesperidin). The contents of naringin ,hesperidin,neohesperidin,berberine hydrochloride ,palmatine hydrochloride and lovastatin measured by QAMS were 40.198-77.552,6.138-13.413,71.823-125.868,11.274-49.951,3.303- 5.367,1.821-3.185 mg/g,respectively. The contents of naringin ,hesperidin,neohesperidin,berberine hydrochloride ,coptisine hydrochloride,palmatine hydrochloride and lovastatin measured by external reference method were 41.454-79.976,6.404-13.993, 74.068-129.081,11.627-51.512,5.922-12.020,3.158-5.131 and 1.901-3.325 mg/g,respectively. The deviations of the two methods (except for coptisine hydrochloride )were all less than 3.00%. CONCLUSIONS The established HPLC fingerprint and the method of QAMS are simple ,accurate and reproducible. Combined with chemical pattern recognition analysis ,it can be used for the quality evaluation of QTXT. Berberine hydrochloride ,palmatine hydrochloride and other components may be the markers affecting the quality of the drug.
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OBJECTIVE To establish H PLC fingerprint of Rheum palmatum before and after steaming with wine ,and to determine the contents of 3 differential components. METHODS HPLC method was used to establish the fingerprints of 15 batches of R. palmatum (before wine-steaming )and prepared rhubarb (after wine-steaming )and the similarity evaluation was conducted. The chemical pattern recognition analysis was carried out by principal component analysis ,cluster analysis ,partial least squares- discriminant analysis and orthogonal partial least squares-discriminant analysis. The contents of gallic acid ,resveratrol-4′-O- glucoside and resveratrol- 4′-O-(6″-galloyl)-glucoside in 30 batches of samples were determined. RESULTS In the fingerprint study,48 common peaks were demarcated for R. palmatum and 47 for prepared rhubarb as well as 17 common peaks were identified by reference substance. Cluster analysis and principal component analysis showed that R. palmatum derived from Qinghai before and after steaming with wine could be distinguished from those from Sichuan and Gansu. The results of content determination showed that the contents of 3 differential components in R. palmatum derived from Qinghai before and after steaming with wine were higher than those from other two production areas ;the contents of gallic acid in prepared rhubarb derived from those production areas were higher than R. palmatum ;the contents of resveratrol- 4′-O-glucoside and resveratrol- 4′-O- (6″-galloyl)-glucoside in R. palmatum derived from those production areas were higher than prepared rhubarb. CONCLUSIONS Fingerprint and content determination method established in this study can quickly ,scientifically and accurately evaluate the quality of R. palmatum from different producing areas before and after wine steaming ,which provide a basis for the processing specification and quality control of R. palmatum .
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Objective To establish a UHPLC method for the determination of zolpidem tartrate tablets after radiation, and to investigate the effect of different radiation doses on the content of zolpidem tartrate tablets. Methods Ultra high performance liquid chromatography was used. The content of zolpidem tartrate tablets irradiated by γ-ray was determined. Using C18 column, acetonitrile methanol-0.05 mol/L phosphoric acid solution (the pH value as 5.5 with triethylamine) (18∶26∶56) was used as the mobile phase. The flow rate was 0.7 ml/min, and the detection wavelength was 254 nm. Results The method validation showed good linearity in the concentration range of 5-80 μg/ml (r=0.999 6); The average recovery was 98.2%, RSD was 1.72%, and the repeatability was 0.87%. The contents of zolpidem tartrate were 105.1%, 106.4%, 102.7% and 105.4% under 0, 8, 25 and 80 kGy radiation. Conclusion UHPLC has accurate results with short analysis cycle in this study. It is suitable for the determination of zolpidem tartrate tablets after radiation. The content of zolpidem tartrate tablets remained basically unchanged after radiation.
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Objective To establish a method for the simultaneous determination of new mangiferin, mangiferin, artemisinin BⅡ, icariin and artemisinin A in Anemarrhenae Rhizoma by high performance liquid chromatography-evaporation light scattering detector (HPLC-ELSD). Methods The column was Agilent Poroshell 120 EC-C18. The mobile phase used acetonitrile-0.2% acetic acid water system with gradient elution. Column temperature was 30 ℃. Flow rate was 0.7 ml/min. Evaporative light scattering detector used nitrogen as atomizing gas. The atomizing gas temperature was 40 ℃ and the drift tube temperature was 90 ℃. The nitrogen volume flow rate was 2.00 L/min and the sample volume was 20 μl. Results The five components were able to achieve baseline separation. Neomangiferin, Mangiferin, Anemaponin BⅡ, Baohuoside I , Anemarrhena saponin AⅢwere determined as 24.1-386 μg/ml (r=0.999 3), 23.2-371 μg/ml (r=0.998 6), 54.2-867.2 μg/ml(r=0.995 6), 5.3-84.8 μg/ml (r=0.996 8), 10-160 μg/ml (r=0.998 9) respectively, which showed a good linear relationship within the concentration range. The average recovery rate of the five components was between 101.8% and 105.0%, and the repeatability RSD was less than 2.4%. The content of the above five components in Zhimu medicinal materials were 1.62%, 0.82%, 7.36%, 0.07%, 0.34%, respectively. Conclusion The method is simple, accurate, and highly sensitive, which could be used as the quantitative determination of multiple index components of Anemarrhenae Rhizoma.
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OBJECTIVE To improve the quality standard of T ibetan medicine of Qinjiaohua ,and to provide scientific basis for comprehensive quality evaluation. METHODS The qualitative analysis of 16 batches of Qinjiaohua with different producing areas and different origins was carried out by microscopic and TLC identification. According to the method stated in 2020 edition of Chinese Pharmacopoeia ,water content ,total ash content ,acid-insoluble ash content and alcohol-soluble extract content were determined. HPLC method was used to determine the contents of 5 components (loganic acid ,swertiamarin,gentiopicrin, swertionolin,isoorientin) in Qinjiaohua. RESULTS The medicinal powder of Qinjiaohua was light brown-yellow ,and the microscopic features of the powder were clear ,and pollen grains ,ducts,non-glandular hairs ,corolla epidermal cells and calyx epidermal cells were all found. The results of TLC indentification showed that there were fluorescent spots of the same color in the chromatogram of the tested product and the corresponding position of substance control (isoorientin). The content ranges of water content,total ash content ,acid-insoluble ash content and alcohol-soluble extract were 5.40%-8.87%,3.76%-6.40%,0.27%-0.58%, 26.81%-42.51%,respectively. The results of content determination methodology met the requirements of pharmacopoeia ;the content ranges of loganic acid ,swertiamarin,gentiopicrin,swertionolin and isoorientin in 16 batches of Qinjiaohua were 3.13-9.36,1.26-22.39,13.80-74.60,1.24-12.22,2.58-14.96 mg/g,respectively. CONCLUSIONS On the basis of the original quality standard of Qinjiaohua ,microscopic identification ,TLC identification ,content determination and examination items of water,total ash ,acid-insoluble ash and alcohol-soluble extract are added. It is preliminarily proposed that water content ,total ash content and acid-insoluble ash content should not exceed 9.0%,6.5% and 0.6%,while the contents of ethanol-soluble extract and gentiopicrin should not be less than 26.0% and 13.8 mg/g,respectively.
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OBJECTIVE To determine the conte nts of 4 main components in Rougui renshen granules ,and to establish the fingerprint and to screen differential markers affecting its quality. METHODS HPLC method was employed to determine the contents of ammonium glycyrrhizinate ,glycyrrhizin,cinnamic acid and cinnamaldehyde. HPLC fingerprints of 10 batches of Rougui renshen granules were established simultaneously. Similarity Evaluation System of Chromatographic Fingerprint of TCM (2012 edition)was used to evaluate the similarity and determine the common peak ;SPSS 25.0 and SIMCA 14.1 software were applied for cluster analysis (CA),principal component analysis (PCA)and partial least square-discriminant analysis (OPLS-DA). The differential markers affecting sample quality were screened by using the variable importance in projection (VIP)value> 1 as standard. RESULTS The methodology of content determination met the relevant requirements. The contents of ammonium glycyrrhizinate,glycyrrhizin,cinnamic acid and cinnamaldehyde were 1.808 4-2.770 0,1.137 2-1.481 4,0.076 5-0.091 8 and 0.130 9-0.478 4 mg/g,respectively. A total of 16 common peaks were found in the fingerprints of 10 batches of Rougui renshen granules. Four chromatographic peaks were identified ,i.e. glycyrrhizin (peak 6),cinnamic acid (peak 10),cinnamaldehyde(peak 11)and ammonium glycyrrhizinate (peak 15). The similarities of samples were >0.95. Results of CA showed that 10 batches of samples could be classified into three categories :S3 was grouped into one category ;S1-S2,S4-S5 and S 10 were grouped into one category;S6-S9 were grouped into one category. The results of PCA showed that the cumulative contribution rate of the first three principal components was 91.918%,and the classification results were consistent with CA. The results of OPLS-DA showed that the four peaks with VIP value >1 were peak 11(cinnamaldehyde),peak 15(ammonium glycyrrhizinate ),peak 6(glycyrrhizin) and peak 9. CONCLUSIONS Established methods of content determination and fingerprint are accurate and reproducible ,and can be used for the quality evaluation of Rougui renshen granules. The components as ammonium glycyrrhizinate ,cinnamaldehyde, glycyrrhizin may be differential markers affecting the quality of Rougui renshen granules.
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OBJECTIVE To establish the fingerprints of Ligusticum sinense from different habitats ,screen differential components and determine their contents. METHODS Using Z-ligustilide as reference ,HPLC fingerprints of 12 batches of L. sinense were established by using Similarity Evaluation System of Chromatographic Fingerprints of TCM (2012 edition);common peaks were identified and their similarities were evaluated. Cluster analysis (CA),principal component analysis (PCA)and orthogonal partial least squares-discriminant analysis (OPLS-DA)were performed to screen differential components with variable importance in the projection (VIP)>1 as standard ;meanwhile,the contents of above differential components were determined by the same HPLC method. RESULTS There were 17 common peaks in the fingerprints of 12 batches of L. sinense ,and their similarities ranged 0.989-1.000. A total of 9 common peaks were identified ,i.e. chlorogenic acid (peak 1),ferulic acid (peak 2), senkyunolide Ⅰ(peak 7),coniferyl ferulate (peak 9),E-ligustilide(peak 13),senkyunolide A (peak 14),Z-ligustilide(peak 17). CA results showed that 12 batches of L. sinense were divided into 3 categories,S1-S5(Wuning)were clustered into one category,S6-S8(Ruichang)were clustered into one category ,S9-S12(De’an)were clustered into one category ;the VIP values of peaks 2,13,14 and 17(corresponding to ferulic acid ,E-ligustilide,senkyunolide A ,and Z-ligustilide respectively )were all greater than 1,respectively. In S 1-S5,S6-S8 and S 9-S12 samples,the contents of ferulic acid were 0.488-0.533,0.603-0.658 and 0.415-0.433 mg/g,respectively;senkyunolide A were 1.184-1.295,1.450-1.588 and 1.307-1.377 mg/g,respectively;E-ligustilide were 0.118-0.125,0.130-0.135 and 0.223-0.229 mg/g,respectively;Z-ligustilide were 7.200-7.681,8.076-8.643 and 4.508-4.996 mg/g, respectively;the differences between two groups were statisti-cally significant (P<0.05). CONCLUSIONS Established ARS-11);fingerprint is simple and accurate ,and can be used for overall quality evaluation of L. sinense from different habitats by combining with multivariate statistical analysis. Ferulic acid , senkyunolide A ,Z-ligustilide and E-ligustilide may be the differential components that affect the quality of L. sinense from different habitats ,the contents of the first 3 components in L. sinense from Ruichang are the highest ,and the content of E-ligustilide in samples from De’an is the highest.
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OBJECTIVE To develop an HPLC method for the simultaneous dete rmination of morroniside ,loganin,paeoniflorin, salvianolic acid B and icariin in Shenfukang Ⅱ capsule. METHODS The determination was performed on Agilent 5 TC-C18 column with mobile phase consisted of acetonitrile- 0.1% phosphate acid (gradient elution )at the flow rate of 1 mL/min. The column temperature was 30 ℃,and detection wavelength was set at 240 nm. The sample size was 10 μL. RESULTS The linear range of morroniside,loganin,paeoniflorin,salvianolic acid B and icariin were 4.80-240.00,4.84-242.00,7.00-350.00,4.72-236.00 and 5.18-259.00 μg/mL(r≥0.999 8),respectively. RSDs of precision ,stability and reproducibility tests were all lower than 3%(n=6). Average recoveries were 97.22%-101.36% with the RSDs of 1.19%-2.43%(n=6). The contents of above 5 components in 5 batches of samples were 2.019 3-2.360 0,1.624 2-1.847 1,5.637 7-6.828 0,5.015 9-5.717 0 and 1.208 8-1.754 6 mg/g,respectively. CONCLUSIONS The method is simple ,accurate and reproducible. It can improve the quality control level of Shenfukang Ⅱ capsule.
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OBJECTIVE To establish the fingerp rint of decoction pi eces and dispensing granules of Gardenia jasminoides ,to determine the contents of 6 components,so as to evaluate its quality combined with chemical pattern recognition. METHODS High performance liquid chromatography (HPLC)was used. Using geniposide as the reference ,Similarity Evaluation System for Chromatographic Fingerprint of TCM (2012 edition)was used to draw the fingerprints of 20 batches of G. jasminoides decoction pieces and 10 batches of G. jasminoides dispensing granules. Similarity evaluation and common peaks identification were conducted. The same HPLC method was adopted to determine the contents of deacetyl asperulosidic acid methyl ester ,geniposide, picrocrocin,rutin,crocin-Ⅰ and crocin- Ⅱ. ORIGIN 9.1 software was used for hierarchical clustering analysis ,and SIMCA 16.0 software was used for principal component analysis (PCA) and partial least squares-discriminant analysis. The differential components affecting the quality of decoction pieces and dispensing granules were screened by taking the variable importance in projection(VIP)value>1 as the standard. RESULTS There were 24 common peaks for both 20 batches of G. jasminoides decoction piece and 10 batches of G. jasminoides dispensing granules ;a total of 22 common peaks were found in the fingerprints of 30 batches of samples ,and the similarity was not lower than 0.96;six common peaks were identified ,i.e. deacetyl asperulosidic acid methyl ester (peak 2),geniposide(peak 6),picrocrocin(peak 9),rutin(peak 11),crocin-Ⅰ(peak 15),crocin-Ⅱ(peak 17). Average contents of above 6 components in G. jasminoides decoction pieces were 1.04,57.00,1.30,1.03,9.63 and 0.99 mg/g, respectively;those of G. jasmin oides dispensing granules were 0.96,17.04,0.37,0.27,0.73 and 0.04 mg/g,respectively. PCA results showed that G. jasminoides decoction pieces and G. jasminoides dispensing granules were clustered into respective one category ,which was consistent with results of cluster analysis. There were 9 common peaks with VIP value >1, which were 16,14,3,17(crocin-Ⅱ),15(crocin-Ⅰ),18, 22, 2 (deacetyl asperulosidic acid methyl ester) and 21. CONCLUSIONS The estab lished fingerprint and content determination method are simple and reproducible. Combined with chemical pattern recognition ,it can be used to evaluate the quality of decoction pieces and dispensing granules of G. jasminoides . Nine corresponding components represented by peak 16 and so on are the differential components that affect the quality of them.
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OBJECTIVE To establish a quality standard for rice-fired Glehnia littoralis . METHODS Appearance observation , powder microscopic identification and thin-layer chromatography (TLC)identification were performed for the samples of rice-fired G. littoralis decoction piece. According to the relevant methods stated in 2020 edition of Chinese Pharmacopoeia (part Ⅳ),the contents of moisture ,total ash ,acid-insoluble ash ,water-soluble extract and acid-soluble extract were determined. The contents of psoralen,zanthoxylin,bergapten,imperatorin and isoimperatorin were determined by high performance liquid chromatography (HPLC). RESULTS The rice-fired G. littoralis decoction pieces were round-like small segments ,slightly rough ,yellow(peeled) or dark yellowish brown (with peel ),special gas and slightly sweet taste. The powder was yellowish white. Under the microscope , secretions and secretory cells ,ducts,gelatinized starch granules ,ray cells ,parenchyma cells ,etc. could be seen. TLC showed the spots developed clearly. In the chromatogram of the test sample ,there was the same blue fluorescent spot at the corresponding position of the chromatogram of isoimperatorin control sample. The moisture ,total ash ,acid-insoluble ash ,water-soluble extract and ethanol-soluble extract from 9 batches of samples were 5.82%-6.27%,3.19%-3.59%,0.21%-0.27%,24.91%-30.30% and 20.66% -25.83% ,respectively. The linear range of psoralen ,zanthotoxin,bergapten,imperatorin and isoimperatorin were 0.240-2.400,0.320-3.200,0.224-2.240,0.292-2.920,0.208-2.080 µg/mL(all r>0.999 0). Limits of quantitation were 0.032 0, 0.030 0,0325 0,0.032 0,0.045 0 µg,respectively. Limits of detection were 0.100 8,0.089 6,0.071 5,0.090 0,0.132 0 µg, respectively. RSDs of prescision ,stability(24 h)and reprodu- cibility tests were less than 3%. Average recoveries were 100.56% (RSD=1.36% ,n=6),100.73%(RSD=2.25% ,n=6), 100.36%(RSD=0.98%,n=6),98.24%(RSD=0.40%,n=6) E-mail:853063968@qq.com and 99.40%(RSD=0.35%,n=6),respectively. The contents of above five components were 5.85-13.31,8.63-33.38,6.23- E-mail:shixiaofeng2005@sina.com 15.25,6.12-12.98,5.52-10.77 µg/g,respectively. The total contents were 34.20-83.47 µg/g. CONCLUSIONS It is preliminarily proposed that the moisture ,total ash and acid-insoluble ash should not exceed 7.30%,4.10%,0.30%. The water-soluble extract and ethanol-soluble extract are no less than 21.00% and 18.00%,respectively. The total content of coumarin should not be less than 52.03 µg/g(with peel )and 26.34 μg/g(peeled). Established quality standard can be used for the quality control of rice-fired G. littoralis .
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OBJECTIVE To establish the fingerprints of dried Houttuynia cordata and its decoction pieces ,conduct chemometrics analysis and determine the contents of 5 flavonoids such as neochlorogenic acid. METHODS High performance liquid chromatography (HPLC)method was adopted. Using quercitrin as reference ,HPLC fingerprints of 10 batches of dried H. cordata and its decoction pieces were drawn. The similarity evaluation was conducted by Similarity Evaluation System of TCM Chromatographic Fingerprint (2012 edition),the common peaks were also confirmed. SIMCA-P 14.1 software was applied for principal component analysis (PCA)and partial least square-discriminant analysis (PLS-DA),and the variable importance in projection(VIP)value more than 1 was considered as a standard to screen the differential components affecting the quality of these two products ;meanwhile,the contents of 5 components such as neochlorogenic acid in both products were determined by the same HPLC method. RESULTS There were 20 common peaks in 10 batches of dried H. cordata and 10 batches of its decoction pieces with the similarity values more than 0.960. A total of 5 common peaks were identified ,which were neochlorogenic acid (peak 1), chlorogenic acid (peak 3),cryptochlorogenic acid (peak 4),rutin(peak 7)and quercitrin (peak 11). The results of PCA and PLS-DA showed that dried H. cordata could be distinguished from its decoction pieces obviously ;the common peaks with VIP value greater than 1 were as follows :peak 7(rutin),peak 20,peak 5,peak 13,peak 2,peak 18,peak 3(chlorogenic acid ), peak 14,peak 17 and peak 19. The linear range of neochlorogenic acid ,chlorogenic acid ,cryptochlorogenic acid ,rutin and quercitrin were 3.77-60.29 μg/mL(r=0.999 7),1.40-22.42 μg/mL(r=0.999 5),3.76-60.22 μg/mL(r=0.999 9),2.19-35.06 μg/mL (r=0.999 9)and 25.49-407.88 μg/mL(r=0.999 7),respectively. RSDs of precision ,stability(24 h)and reproducibility E-mail:20190394@njucm.edu.cn tests were all lower than 3%. The average recoveries of the above components in these two products were 98.72%-101.12% and 98.86% -100.63% with RSDs less than 3%(n=9). In dried H. cordata ,the average contents of 5 components were 0.87,0.33,0.59,0.61 and 6.17 mg/g,while the average contents were 0.42,0.11,0.26,0.23 and 3.16 mg/g in its decoction pieces ,respectively. CONCLUSIONS HPLC fingerprint and the method of content determination are stable and feasible ,which could be used for the quality control of dried H. cordata and its decoction pieces. Besides ,rutin and other components may be the differential components which could affect the quality of these two products ;the average contents of the 5 flavonoids such as neochlorogenic acid in dried H. cordata all decrease after processing.
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OBJECTIVE To stu dy the effects of different processing me thods on the contents of the pharmacodynamic index components in Citrus aurantium and their antioxidant activity. METHODS According to the general principles of 2020 edition of Chinese Pharmacopoeia (volume Ⅳ) and the relevant processing methods in 2015 edition of Processing Specifications of Traditional Chinese Medicine in Zhejiang Province ,the samples of C. aurantium were prepared by steaming with water ,boiling with water ,stir-frying with vinegar ,stir-frying with wine ,stir-frying with bran ,processing with bran and processing with honey. The contents of moisture and ash in different products of C. aurantium were detected. The contents of naringin and neohesperidin in different products of C. aurantium were determined by high performance liquid chromatography. The antioxidant activity of different products was investigated by DPPH and ABTS + radical scavenging experiments and the total reducing power test. RESULTS The contents of moisture ,ash,naringin and neohesperidin were in line with the relevant requirements in 2015 edition of Processing Specifications of Traditional Chinese Medicine in Zhejiang Province . The content of naringin in descending order was as follow : unprocessed sample >sample processed with honey >sample processed with bran >sample boiled with water >sample stir-fried with vinegar>sample stir-fried with wine >sample stir-fried with bran >sample steamed with water. The content of neohesperidin in descending order was as follow :unprocessed sample >sample boiled with water >sample processed with bran >sample processed with honey >sample stir-fried with vinegar >sample steamed with water >sample stir-fried with wine >sample stir-fried with bran. The samples after boiling with water ,processing with bran ,and stir-fried with bran had better DPPH radicals scavenging ability (IC50 were 7.49,8.37 and 10.22 mg/mL,respectively). The samples after boiling with water ,steaming with water ,and processed with bran had better ABTS + radicals scavenging ability (IC50 were 1.76,2.03 and 2.72 mg/mL,respectively). In addition , compared with sample stir-fried with wine and processed with 发。E-mail:wanglu1286@163.com honey,unprocessed sample and other processed products of C.aurantium had bet ter total reducing ability. CONCLUSIONS After processing ,the contents of the main pharmacodynamic index components in C. aurantium have been reduced ,but they were also in line with the relevant requirements in 2015 edition of Processing Specifications of Traditional Chinese Medicine in Zhejiang Province . The antioxidant ability of some processed products has been enhanced.
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OBJECTIVE To establish the method for t he content determination of 5 active components in Yixin badiran jibuya granules and their fingerprints. METHODS High performance liquid chromatography method was adopted to determine the contents of luteolin- 7-O-β-D-glucuronide(LG),apigenin-7-O-glucuronide(APG),rosmarinic acid (RA),diosmetin-7-O-β-D-glucuronide (DG)and tilianin (TL)in 10 batches(No. S 1-S10)of Yixin badiran jibuya granules. The fingerprints of 10 batches of Yixin badiran jibuya granules were drawn by Similarity Evaluation System of Chromatographic Fingerprint of Traditional Chinese Medicine(2004 A edition ),and similarity evaluation and cluster analysis were also performed. RESULTS The contents of LG , APG,RA,DG and TL in 10 batches of Yixin badiran jibuya granules were 0.279 5-0.449 9,0.082 4-0.135 3,0.184 8-0.472 1, 0.149 0-0.332 6,0.311 2-0.623 3 mg/g,respectively. A total of 13 common peaks were demarcated in the fingerprints and were identified as LG (peak 2)APG(peak 6),RA(peak 7),DG(peak 8),TL(peak 11). The similarity ranged from 0.598 to 0.990. The results of cluster analysis showed that S 6-S10 were clustered into one category and S 1-S5 were clustered into one category. CONCLUSIONS Established method for content determination and fingerprints can be used for the quality control for Yixin badiran jibuya granules.