Study on the differences in chemical composition of Scutellaria baicalensis leaves from different origins in Shanxi Province based on plant metabolomics and targeted quantitative analysis / 药学学报

By integrating plant metabonomics and target quantitative analysis methods, this study systematically analyzed the differences of chemical constituents in Scutellaria baicalensis leaves from different producing areas in Shanxi, so as to provide theoretical basis for rational and effective utilization of Scutellaria baicalensis leaves. Based on the idea of plant metabonomics, the liquid quality of 53 batches of Scutellaria baicalensis leaves from 8 different producing areas in Shanxi was analyzed by UPLC-QTOF-MS, and the collected data were imported into SIMCA 14.1 software for multivariate statistical analysis to screen the different chemical constituents among different habitats in Shanxi. Meanwhile, a method for simultaneous determination of 7 flavonoids and 3 organic acids in Scutellaria baicalensis leaves was optimized and established to quantitatively analyze the differences of chemical components in Scutellaria baicalensis leaves from different producing areas in Shanxi. The results of plant metabonomics showed that there were differences in the chemical composition of Scutellaria baicalensis leaves in northern Shanxi (Datong, Xinzhou), Jinzhong (Yangquan, Luliang) and southern Shanxi (Changzhi, Yuncheng, Jincheng, Linfen): there were 14 significant differences in chemical composition between northern Shanxi and Jinzhong; there were 18 significant differences in chemical constituents between southern Shanxi and central Shanxi. There were 15 significant differences in chemical constituents between northern Shanxi and southern Shanxi. Among them, scutellarin and isocarthamidin-7-O-glucuronide were the common differences among the three regions, and the content of scutellarin was the highest in southern Shanxi and the lowest in northern Shanxi. The content of isocarthamidin-7-O-glucuronide was the highest in Jinzhong area and the lowest in northern Shanxi area. Quantitative analysis further confirmed that the average contents of apigenin, naringenin and citric acid were the highest in northern Shanxi, scutellarin, caffeic acid, apigenin-7-O-glucuronide, malic acid and wogonoside were the highest in southern Shanxi, and wogonoside and baicalin were the highest in central Shanxi. This study is of great significance to the quality control of Scutellaria baicalensis leaf resources, and provides theoretical basis for rational and effective utilization of Scutellaria baicalensis leaf resources.

A review of clinical specifications of Scutellariae Radix pieces in ancient and modern literature / 中国中药杂志

Scutellariae Radix is a commonly used Chinese medicinal first recorded in the Shennong's Classic of Materia Medica. In the ancient books of traditional Chinese medicine(TCM), Scutellariae Radix is used in two specifications, solid one(Ziqin) and hollow one(Kuqin). In the current rules and regulations of Chinese medicine, Scutellariae Radix is used without the specific requirements for the specifications applied. To clarify the evolution of Scutellariae Radix specifications and analyze the current specifications of Scutellariae Radix pieces, the present study reviews the Scutellariae Radix from ancient literature, modern rules and regulations, and differences between Ziqin and Kuqin in composition, efficacy, and transformation mechanism. According to the research on ancient books, Kuqin is effective in clearing the fire of the upper energizer, and Ziqin in purging the heat of the lower energizer. Modern studies have revealed that Kuqin and Ziqin are significantly different in chemical components, and Ziqin and Kuqin target the colon and lung, respectively, which are consistent with the relevant records in ancient books. The review study suggests that the two specifications of Scutellariae Radix are reasonable since they can facilitate the precise treatment of Scutellariae Radix.

Analysis on the difference of volatile Oil components in traditional Chinese Medicine by location, Origin and harvesting time of traditional Chinese Medicine / 中草药

The stability of volatile oil quality of traditional Chinese medicine is an important prerequisite for its clinical efficacy and safety. The quality of volatile oil of traditional Chinese medicine is affected by many factors, such as location, producing area, harvest time, extraction process, processing process and so on, which leads to the difference of oil yield or chemical composition of volatile oil, affects the uniformity of volatile oil quality of traditional Chinese medicine, and then affects the curative effect of volatile oil. Therefore, how to control the quality of volatile oil is the key to the role of volatile oil in traditional Chinese medicine. In this paper, the effects of different parts of medicinal materials, different producing areas and different harvest periods on the quality of volatile oil of traditional Chinese medicine were analyzed, and the 2015 edition of Chinese Pharmacopoeia containing volatile oil was classified according to medicinal parts, and the differences of volatile oil components of traditional Chinese medicine were discussed in order to provide reference for the development of volatile oil of traditional Chinese medicine and the establishment of quality standard of volatile oil of traditional Chinese medicine.

Comparison of chemical constituents between Cyathula offinalis and adulterant and their admixture by HPLC characteristic chromatogram fingerprint combined with chemometrics / 中国中药杂志

Cyathula capitate is the main adulterant of C.offinalis. According to the literature reported, there are obvious differences in properties, taste and pharmacological activity between C. capitate and C.offinalis. Therefore, C. capitate can only be used as a local conventional medicine and can't be a substitute for C. offinalis. Since the appearance of C.capitata is very similar to the C.offinalis and the content of cyasterone also can reach the limit of the current pharmacopoeia standard, the C.capitata is mostly sold in the form of impersonation oradmixture, which seriously affected the safety of the clinical medication and the development of the genuine crude drugs. In view of this, HPLC characteristic fingerprint was used to reveal the difference of multi-ingredients of C. offinalis, C. capitata and their admixture. According to the HPLC chromatogram of C.offinalis, C. capitata. and their admixture, 65 different components were obtained to set up a peak area data matrix of 26×65, which was applied to perform the characteristic peak difference analysis, similarity analysis, hierarchical clustering analysis HCA and principal component analysis (PCA). Characteristic peak difference analysis showed that the characteristic peaks of C. capitata and their admixture are more and higher respond than those of C. offinalis. The 9 characteristic peaks were used to distinguish C. capitata, 2 of which were used to distinguish C. offinalis mixed with 5% C. capitata. UV spectra of 9 characteristic peaks are mostly similar to the end absorption spectra of saponins, indicating that C. capitata may contain a large amount of saponins. By the reference fingerprint of C.offinalis established, the similarity analysis showed that the similarity degree of C. offinalis are higher than 0.942, while the similarity degree of C. capitata, C.offinalis mixed with 5% C. capitata are less than 0.383 and 0.399. C.offinalis, C. capitata, C.offinalis mixed with 5% C. capitata could be obviously divided into 3 classes by HCA and PCA. These results showed that there are obvious difference in the chemical composition of C. offinalis, C. capitata and their admixture, which could provide evidence for their identification.