ABSTRACT
Lu Dangshen, a traditional authentic medicinal material of Codonopsis Radix is mainly produced in Shangdang (Changzhi) area of Shanxi Province. Baitiao Dangshen is mainly produced in Gansu Province. Codonopsis Radix contains many kinds of components such as phenylpropanoids, polyalkynes, alkaloids, terpenes, fatty acids, flavonoids, and so on. At present, the effect of producing areas on its chemical compositions has not been systematically studied. This study analyzed the differences of metabolites among Codonopsis pilosula from different producing areas by UPLC-HRMS. PCA, OPLS-DA coupled with Thermo mzcloud online and local databases were used to compare the overall differences of metabolites among Codonopsis pilosula from different producing areas, and the chemical constituents were identified to further screen and find out the different metabolites and analyze the metabolic pathways by information retrieval in HMDB, PubChem, Chemspider and KEGG databases. The results showed that 72 differential metabolites were identified in this study. There were 15 kinds of up-regulated and 57 kinds of down-regulated metabolites of Lu Dangshen compared with Baitiao Dangshen. The top 30 metabolic pathways were analyzed by KEGG enrichment, and the most important metabolic pathways were phenylpropanoid biosynthesis, which was demonstrated that phenylpropanoid biosynthesis pathway and related intermediate metabolites could be used as the characteristics of distinguishing Lu Dangshen from different habitats of Codonopsis pilosula. The present study provided a basis for analyzing the influence of producing areas on the chemical components of Codonopsis pilosula and reasonably evaluating the quality of Codonopsis Radix, and also provided a new idea for expounding the authenticity of Lu Dangshen.
ABSTRACT
Objective:To establish the grade evaluation method for Codonopsis Radix slices based relative quality constants, in order to provide scientific theoretical basis for grading of Codonopsis Radix slices. Method:Through literature and market research,the main production areas of Codonopsis Radix slices were determined,and 67 batches of Ludangshen slices(52 batches) and Baitiaodang slices (15 batches) were collected. The appearance traits (average quality and average thickness of Codonopsis Radix slices) were observed and measured. According to Chinese Pharmacopoeia (2015 edition), the extract and the content of Codonopsis pilosula polysaccharide was determined by phenol-sulphoacid method. Then the relative quality constant was calculated,and the results of grade evaluation were evaluated through systematic cluster analysis and correlation analysis. Result:Relative quality constants of 67 batches of Codonopsis Radix slices were between 0.32-2.97. If these samples were divided into three grades:the first-grade relative quality constants were greater than or equal to 2.08,the second grade was greater than or equal to 0.89 but less than 2.08,while the third grade was less than 0.89. The results of systematic cluster analysis showed that 67 batches of Codonopsis Radix slices were clustered into 3 categories,and the results were basically consistent with the classification. The correlation analysis showed a positive correlation between the content of the extracts and the polysaccharide content (P<0.05). Conclusion:This method links the extrinsic characteristics to the intrinsic quality,and objectively grade Codonopsis Radix slices, so as to provide a basis for its grade standards.
ABSTRACT
<p><b>OBJECTIVE</b>To develop a method for the determination of harpagide and harpagoside in Scrophulariae Radix (Xuanshen) by HPLC-UV under double wavelength, and to study the changes of these two constituents during processing, and to set the limitation of harpagide and harpagoside contents in crude drug and sliced pieces of Xuanshen.</p><p><b>METHOD</b>The analyses were performed on an Agilent Technologies ZORBAX SB-C18 (4.6 mm x 250 mm, 5 microm) eluted with acetonitrile-water (containing 0.03% phosphoric acid) in gradient model. The flow rate was 1.0 mL x min(-1) . The column temperature was 25 degrees C. The UV detector wavelength was set at 210 nm before 13 min and then changed to 280 nm.</p><p><b>RESULT</b>Harpagide and harpagoside were separated well. The linear calibration curves were obtained over of 0.0549 - 1.46 microg for harpagide (r = 0.9999, n =7) ,0.0225 - 0.900 microg for harpagoside (r = 0.9998, n = 9). The recoveries ( +/- RSD)% were 98.1 (+/- 2.4)% for harpagide and 98.8 (+/- 4.3)% for harpagoside. The contents of harpagide were 0. 277% - 0.620%, harpagoside were 0.078% - 0.362% in Xuanshen, and harpagide were 0.276% - 1.059%, harpagoside were 0. 059% - 0.183% in sliced Xuanshen, respectively. After the processing of Scrophulariae Radix, the content of harpagide increases 13.7% - 96.0%, while harpagoside decreases 11.0%-73.9%.</p><p><b>CONCLUSION</b>This method is simple, accurate, and can be used for the quality control of Scrophulariae Radix. We propose that the total content of harpagide and harpagoside in either crude drug or sliced pieces of Scrophulariae Radix should not be less than 0.45%.</p>