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Depression is a common emotional disorder that seriously affects people's life and health all over the world. The pathogenesis of depression is complex, and traditional Chinese medicine (TCM) for antidepressants has a good therapeutic effect because of its multi-component, multi-pathway, and multi-target action mode. At present, the anti-depressive mechanism of TCM has not been fully clarified, but it is clear that depression is closely related to metabolic health. Therefore, in order to further explore the anti-depressive mechanism of TCM, this paper proposes research strategies on the anti-depressive mechanism of TCM based on functional metabolomics from the perspective of metabolism, the potential biomarkers of depression are analyzed with the help of multi-omics combined analysis technology, and the functional molecules of TCM for antidepressant are studied. Molecular biology techniques are used to accurately capture the molecular interactions between biomarkers of depression and functional compounds, which identify effective drug targets and further elucidate the biochemical functions and related mechanisms involved in depression metabolic disorders. This paper systematically reviews the research strategies and applications of functional metabolomics in the anti-depressive mechanisms of TCM, expounds on the core value of functional metabolomics, and summarizes the current research status and hot issues of TCM for antidepressants in recent years, providing new methods and new ideas for the study of mechanisms of TCM with the help of functional metabolomics.
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Objective: To evaluate the use of ITS2 sequences as DNA barcode to identify the Zingiberaceae medicinal plants from E'mei area. Method: The genomic DNAs were extracted from 43 Zingiberaceae medicinal plant samples from Sichuan E'mei area. The ITS2 sequences of these samples were amplified and bidirectionally sequenced by PCR. 40 ITS2 sequences were downloaded from the GenBank,and then the interspecific and intraspecific genetic distances were calculated and analyzed by using MEGA 6.0 to construct Neighbor-joining (NJ) tree; TAXON DNA software was also used to analyze intraspecific and interspecific variations and barcoding gaps. The differences in secondary structure of the ITS2 sequences were predicted and compared. Result: The minimum interspecific distance in Zingiberaceae samples was greater than the maximum intra specific distance,with obvious barcoding gap. The NJ tree showed that the samples were clustered into five different branches,Alpinia,Curcuma,Globba,Hedychium,and Zingiber respectively,and further cluster into sub-branches. Significant differences were also present in the secondary structures of ITS2 between different samples. Conclusion: ITS2 sequences as DNA barcode can be used to conduct accurate and rapid identification of the Zingiberaceae plants and clearly figure out the phylogenetic relationship among them,providing guidance for the study of the distribution of medicinal plants of this genus,as well as theoretical basis for the quality control,medication safety and rational development of Zingiberaceae medicinal plants in E'mei area.
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Based on the ITS2 and psbA-trnHsequences, molecular biological identification and genetic relationship of Fritillaria cirrhosa with its relative species were carried out. In this paper, the PCR-RFLP method specified by the Chinese Pharmacopoeia was performed on all samples at first. Secondly, the ITS2 and psbA-trnH sequences of all samples were amplified. Then, the amplified products were used to analyze the genetic distance, construct the phylogenetic tree, assess the identification efficiency, and evaluate the genetic relationship as well. The result showed that all the samples were divided into two groups by PCR-RFLP method. The samples in the first group, including Fritillaria ussuriensis, Fritillaria thunbergii and Fritillaria pallidiflora, could not be digested by SmaI, while the other samples in the second group, including Fritillaria mellea, Fritillaria sinica, Fritillaria cirrhosa var. ecirrhosa Franch, Fritillaria unibracteata var. longinectarea and Fritillaria cirrhosa, could be digested by SmaI. Then, ITS2 and psbA-trnH sequences of all samples were obtained. The length of various ITS2 sequences were distributed from 235 to 239 bp, and the average intra- and inter-specific genetic distance were 0.001 and 0.022, respectively. NJ tree showed that all samples were separated into "Northern Fritillaria" group (Fritillaria ussuriensis and Fritillaria pallidiflora) and "Southern Fritillaria" group (Fritillaria thunbergii, Fritillaria mellea, Fritillaria sinica, Fritillaria cirrhosa var. ecirrhosa Franch, Fritillaria unibracteata var. longinectarea and Fritillaria cirrhosa). The latter group could be further divided into Fritillaria thunbergii and Fritillaria cirrhosa subgroup, and the species in Fritillaria cirrhosa subgroup had close phylogenetic relationships. The length of psbA-trnH sequences was distributed from 337 to 373 bp, and the intra- and inter-specific genetic distance were 0.263 and 0.329, respectively. The samples in this paper could not be clustered effectively by NJ tree. This indicated that the ITS2 sequences were not only able to identify Fritillaria cirrhosa with its partial relative species quickly and accurately, but also clarify the relationship between different Fritillaria species. Therefore, it provided an important theoretical foundation for the development of molecular markers, effective protection, and rational development and utilization of Fritillaria resources.
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Objective To establish a method for determining benzoylaconine, aconitine and 3-deoxyaconitine in Aconitum pendulum and the habitually medicinal materials by HPLC; To provide basis for control of quality standard toxicity composition in Aconitum pendulum and difference between Aconitum pendulum and the habitually medicinal materials. Methods Agilent Eclipse XDB-C18 column (250 mm × 4.6 mm,5 μm) was used at 25 ℃ with the mobile phase consisting of acetonitrile-0.04% trimethylamine (each 1000 mL of water plus 4 mL triethylamine and 1.68 mL phosphoric acid) by gradient elution; detection wavelength was 235 nm; the flow rate was 1 mL/min; injection volume was 10 μL. Results The benzoylaconine, aconitine and 3-deoxyaconitine had good separation and linear relationship in the corresponding range (r>0.999). The average recovery rates were 97.66%–98.47%, and RSD were 0.84%–1.60%. Conclusion The contents of 3 alkaloid were different in Aconitum pendulum and the habitually medicinal materials. Both A. polyschistum and A. sessiliflorum need separate drug names.
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Objective To provide basis for the traceability and safty of Bangna-Tiebangchui according to textual research on the name and base resource of Bangna-Tiebangchui. Methods On the basis of literature textual research, combining herbal and modern Chinese (Tibetan) medicine specifications, literature research, medicinal name interpretation method and plant classification method were used for comprehensive analysis. Results Si Bu Yi Dian records toxic herb medicine of Banganabao. Jing Zhu Ben Cao divides Banganabao into five kinds with different types of efficacy according toxicity and colors, and records Langqingqietu (Tiebangchui) with similar toxicity from Yin Mountain or Han Areas. Base resource of Banganabao includes ten kinds of ranunculaceae aconitum plants. Conclusion Bangna (????? Tibetan transliteration) is the most toxic kind of Banganabao according to textual research, which is also named as Tiebangchui (TCM name) now. Bangna is widely used in anti-inflammation, analgesia, and local anesthesia, which base resource is Aconitum pendulum Busch and dry roots of A. flavum Hand.-Mazz.
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Objective The complex morphological variation and sources of Tibetan medicinal plants from Aconitum genus make it difficult to identify the medicinal materials correctly. In addition, the toxicity of these materials could be a huge challenge for the safety of drug use. A rapid and accurate method for the identification and classification of Tibetan medicinal herbs of Aconitum genus was built by using ITS2 sequences as DNA barcodes. Methods A total of 50 samples of Aconitum chasmanthum, A. liangshanicum, A. kongboense, A. gymnandrum, A. pendulum, A. tanguticum, A. phyllostegium, A. campylorrhynchum, A. Polyschistum, and A. sessiliflorum were collected from the Qinghai-Tibet Plateau. PCR amplification and sequencing of ITS2 sequences were conducted after the extraction of DNA. Genetic distance, neighbor joining (NJ) phylogenetic tree and secondary structures of ITS2 sequences were analyzed using MEGA 6.0. Results The maximum distance between species was greater than the minimum distance within each species, NJ tree showed that the samples went to 12 separate branches, differences among the secondary structures of ITS2 sequences also made it clear to identify these species. Conclusion Using ITS2 sequence as DNA barcode can be an accurate and rapid method for identification and recognition for Tibetan medicinal plants of Aconitum genus, which provides a reliable technical means to ensure safety use of these Tibetan medicines.
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Artemisia hedinii occupies an important position in the Tibetan medicine. Plants in Artemisia vary a lot and are widely distributed in the Qinghai-Tibet Plateau, many plants in Artemisia look similar, making traditional identification methods laborious. In this article, ITS2 sequences were used as DNA barcoding to identify four kinds of confusable Tibetan medicine plants in Artemisia, aiming to establish a rapid and accurate identification methods. Twenty-one samples in Artemisia were collected from the Qinghai-Tibet Plateau, ITS2 sequence PCR amplification and sequencing were conducted after the extraction of DNA. Another 11 sequence downloaded from Genbank were added to the analysis. Genetic distance calculation and analysis, building Neighbor Joining (NJ) phylogenetic tree were conducted by MEGA 6.0, also comparison of secondary structures of ITS2 sequences among samples. A. hedinii, A. annua, A. dubia and A. argyi shared close genetic distance, but the maximum distance between the four species was much greater than the minimum distance within each species, NJ tree showed that the four species went to four separate branches, differences among secondary structures of ITS2 sequences also made it clear to identify these medical plants. It could be an accurate and rapid method for identification and recognition, as well as the evolutionary relationships between the species by using ITS2 sequence as DNA barcode for plants of Tibetan Artemisia. The study provides theoretical basis for quality control, medication safety and rational exploitation.
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The study is aimed to ensure the quality and safety of medicinal plants by using ITS2 DNA barcode technology to identify Corydalis boweri, Meconopsis horridula and their close related species. The DNA of 13 herb samples including C. boweri and M. horridula from Lhasa of Tibet was extracted, ITS PCR were amplified and sequenced. Both assembled and web downloaded 71 ITS2 sequences were removed of 5. 8S and 28S. Multiple sequence alignment was completed and the intraspecific and interspecific genetic distances were calculated by MEGA 5.0, while the neighbor-joining phylogenetic trees were constructed. We also predicted the ITS2 secondary structure of C. boweri, M. horridula and their close related species. The results showed that ITS2 as DNA barcode was able to identify C. boweri, M. horridula as well as well as their close related species effectively. The established based on ITS2 barcode method provides the regular and safe detection technology for identification of C. boweri, M. horridula and their close related species, adulterants and counterfeits, in order to ensure their quality control, safe medication, reasonable development and utilization.
Subject(s)
Base Sequence , China , Corydalis , Chemistry , Classification , Genetics , DNA Barcoding, Taxonomic , Methods , DNA, Plant , Chemistry , Genetics , DNA, Ribosomal Spacer , Chemistry , Genetics , Molecular Sequence Data , Nucleic Acid Conformation , Papaveraceae , Chemistry , Classification , Genetics , Phylogeny , Plants, Medicinal , Chemistry , Classification , GeneticsABSTRACT
The study focused on the therapeutic efficacy of Tibetan medicines on cerebral ischemia. The combined medication methods and administration habits in clinic for more than 10 years were simulated. Three typical Tibetan medicines, i.e., 25-Herb Shanhu pill, Wishful-Treasure pill and 20-Herb Chenxiang pill, were administered to the animal model of permanent middle cerebral artery occlusion in the morning, noon and evening, respectively. On the second day after the final administration, the activity of serum oxidative stress marker SOD and the content of MDA were evaluated. Infarct volumes were quantified through TTC staining. Inflammatory reaction maker NF-kappaB p65 gene and apoptosis. makers Bax and Cyct were selected to study the molecular mechanism of combined herbs with the immunohistochemistry technique. According to the result, the respective combination of 25-Herb Shanhu pill, Wishful-Treasure pill and 20-Herb Chenxiang pill in the morning, noon and evening showed unique advantages in reducing the damage of oxidative stress, infarct volumes, encephaledema caused by ischemia, inflammatory factor aggregation and inhibiting apoptosis, with consistent therapeutic efficacies in clinic.