Determination of bioactive components in the fruits of Cercis chinensis Bunge by HPLC-MS/MS and quality evaluation by principal components and hierarchical cluster analyses / 药物分析学报

The fruits of leguminous plants Cercis Chinensis Bunge are still overlooked although they have been reported to be antioxidative because of the limited information on the phytochemicals of C.chinensis fruits.A simple,rapid and sensitive HPLC-MS/MS method was developed for the identification and quantitation of the major bioactive components in C.chinensis fruits.Eighteen polyphenols were iden-tified,which are first reported in C.chinensis fruits.Moreover,ten components were simultaneously quantified.The validated quantitative method was proved to be sensitive,reproducible and accurate.Then,it was applied to analyze batches of C.chinensis fruits from different phytomorph and areas.The principal components analysis (PCA) realized visualization and reduction of data set dimension while the hierarchical cluster analysis (HCA) indicated that the content of phenolic acids or all ten components might be used to differentiate C.chinensis fruits of different phytomorph.

Analysis on Material Basis and Mechanism Difference of Antibacterial Effect of Coptis chinensis and Its Flower Stalk Based on Secondary Metabolites and Network Pharmacology / 中国实验方剂学杂志

Objective:To explore the difference in antibacterial mechanism between <italic>Coptis chinensis</italic> and<italic> </italic>its<italic> </italic>flower stalk based on secondary metabolites and network pharmacology. Method:Based on the ultraperformance liquid chromatography mass spectrometry（UPLC-MS/MS） detection platform，the secondary metabolites database of <italic>C. chinensis</italic> and its flower stalk（MWDB） was built. The common database of metabolites information and the multivariate statistical analysis were used to study the differences of secondary metabolites between <italic>C. chinensis</italic> and its flower stalk and screen out 18 metabolites of<italic> </italic>the<italic> </italic>flower stalk and 11 metabolites of <italic>C. chinensis</italic> with a high content. BATMAN-TCM database was used to obtain the targets of component action，and their corresponding genes were inquired in the UniProt database. GeneCards was retrieved for antimicrobial genes，and the intersection genes of components and antimicrobials were obtained on Venny platform. Through DAVID gene ontology（GO） enrichment analysis and Kyoto encyclopedia of genes and genomes（KEGG） pathway enrichment analysis，the mechanism of its action was predicted，and the results were visualized through histogram and advanced bubble diagram drawn by GraphPad Prism software and OmicShare database. The protein-protein interaction（PPI） network was constructed by STRING， database and the component-target-pathway network was constructed by Cytoscape 3.7.2 software. The antibacterial differences were compared based on the results of network pharmacology analysis. Result:Through network pharmacology，the antibacterial active components of <italic>C. chinensis</italic> were 5 fewer than that of the flower stalk，55 more antibacterial targets than that of the flower stalk； quercetin and berberine were predicted to be the common components of the antagonistic action of <italic>C. chinensis </italic>and the flower stalk. Key genes involved in antimicrobial action were p38 Mitogen-activated protein kinase 14（MAPK14），catalase（CAT）； malaria and Toll-like receptor signaling pathway were different key pathways involved in antimicrobial activity. Conclusion:<italic>C. chinensis </italic>and the flower stalk mainly exert the antibacterial effect in a multi-target and multi-pathway manner，which can offer new ideas and clues for the study of antibacterial mechanism of<italic> C. chinensis</italic> and the flower stalk，and provide a new development direction for the comprehensive development and rational application of the flower stalk resources.

Influence of hosts on Hyperoside content in two kinds of Semen Cuscutae / 中华中医药杂志

Objective: To study the contents of hyperoside in Semen Cuscutae,which grew in different host and different environment.Methods: Hyperoside was determined by HPLC.Results: The content of hyperoside is 0.28%-0.65% in the semen Cuscutae growing in different conditions in Shandong.The content is higher in semen of C.chinensis in Linyi,whose host is Scutellaria baicalensis Georgi.The content of hyperoside is lower in semen of C.australia which grew in Humulus scandens(lour.) Merr.The content has no obvious difference between C.chinensis and C.australis.Conclusions: The content of hyperoside in semen Cuscutae has relation with the hosts.The content increased with the seed mature degree.

Comparison of components in Coptis chinensis processed with various quantity of Evodia rutaecarpa / 中草药

Object To investigate the berberine in Coptis chinensis Franch. processed with various quantity of Evodia rutaecarpa (Juss.) Benth. and the components absorbed from E. rutaecarpa. Methods Taking berberine, evodiamine and rutaecarpine as targets, HPLC method was used to determine the components of C. chinensis, E. rutaecarpa, C. chinensis processed with 10%, 20%, 30%, 40%, 50% E. rutaecarpa. Results The content of berberine in C. chinensis processed with E. rutaecarpa decreased, and that of C. chinensis processed with 20% and 30% E. rutaecarpa was higher than the rest. C. chinensis processed with E. rutaecarpa absorbed the components of E. rutaecarpa really. Conclusion The suitable quantity of E. rutaecarpa is 20% when processing for C. chinensis.