ality is gene-rally poor and the efficacy is hard to be guaranteed. Therefore, the weight percentage of leaves should be added into the inspection items of the processed slices and it should not be less than 25%.To prepare Cangyi nanoemulsion in situ gel and study its nasal mucosa release mechanism in vitro. After proper treatment of different drugs in the compound, the prescription of nanoemulsion was determined by pseudo-ternary phase diagram method. With the ratio of mixed emulsifier to oil phase [(S+COS)/O], the ratio of mixed emulsifier(K_m), the ratio of water phase to mixed emulsifier and oil phase[W/(S+COS+O)] as investigation factors and the normalized value(OD) as evaluation index, the prescription of Cangyi nanoemulsion was optimized by central composite design-response surface method. With the ratio of poloxamer 407(P407) and poloxamer 188(P188) as the investigation factors and the gelation temperature as the evaluation index, the in situ gel prescription of Cangyi nanoemulsion was optimized. The improved Franz diffusion cell was used to explore the nasal mucosa drug-release mechanism of Cangyi nanoemulsion in situ gel with oxymatrine, ferulic acid and salvianolic acid B content as indexes. The optimal prescription of Cangyi nanoemulsion in situ gel was as follows 6.862% castor oil polyoxyl(EL), 4.262% absolute ethanol, 1.392% ethyl oleate, 7% P407 and 6% P188. The average pH was 5.55 and the average gelation temperature was 32.8 ℃. In vitro release studies showed that oxymatrine, ferulic acid and salvianolic acid B were released simultaneously and the drug release behavior was consistent with that in Higuchi model. The preparation process of Cangyi nanoemulsion in situ gel is stable, with suitable pH value, gelation temperature and viscosity. It has a certain slow-release effect, and can meet the needs of local nasal drug use.Plant hormones participate in the regulation of plant growth, and have significant physiological activities. Secondary metabolites are important raw materials of pharmaceutical and chemical industry, which have attracted extensive attention due to their economic and medicinal value. With the development of biotechnology, plant hormones have played an important role in regulating the synthesis of secondary metabolites. WNT974 This paper mainly introduces the synthesis pathway, signal transduction mechanism and regulation of secondary metabolites of auxin, cytokinin, gibberellin, abscisic acid, ethylene, brassinosteroids and methyl jasmonate in plants. Researching the accumulation of secondary metabolites from a micro aspect is helpful to better understand the formation of plant hormones and their development in the process of secondary metabolism. In additionally, it provides a reference for the rational utilization of plant hormones and the scientific and efficient improvement of the production of secondary metabolites in plants.Syringa pinnatifolia is an endemic species of Syringa in Oleaceae family in China, mainly distributed in Helan Mountain, which is located between Inner Mongolia and Ningxia. Its peeled roots, stems and thick twigs have been used as Mongolian folk medicine, called "Shan-chen-xiang" in Chinese, for the treatment of coronary heart diseases, angina pectoris and other cardiopulmonary diseases. Modern researches showed that S. pinnatifolia mainly contains lignans, sesquiterpenoids, and volatile oils, and displays anti-myocardial ischemia, sedation, analgesia, antibacterial and other effects. In the past five years, many groups have made new progress on the study of chemical constituents and pharmacological activities of S. pinnatifolia. On the basis of the previous review by our group, this paper summarizes the advances which is beneficial to the development, research and clinical application of S. pinnatifolia, particularly Shan-chen-xiang.Acute myocardial infarction(AMI) is still the leading cause of death worldwide. At present, the treatment of AMI is mainly to restore the cardiac blood supply through myocardial reperfusion. With the widespread use of coronary artery bypass grafting and percutaneous coronary intervention(PCI), myocardial reperfusion injury is a major clinical problem. Mitochondrial dysfunction is an important pathological basis for myocardial ischemic injury. Therefore, mitochondria can be used as an important target against myocardial damage. In this article, we would briefly review the physiological functions of mitochondrial dynamics-related proteins as well as their pathological mechanisms and pharmacological interventions in treatment of myocardial ischemia-reperfusion injury.Polygonati Rhizoma(PR), listed as a top-grade medicine, was recorded first in the Mingyi Bielu written by TAO Hongjing. It is a good medicine through the ages to tonify Qi and nourish Yin, strengthen spleen and kidney. PR has a long history of processing and has a variety of processing methods and technologies. Steaming and stewing are the main processing methods. There are many different excipients used in processing PR, such as wine, honey, black beans, and multiple excipients. At present, there are three plant varieties of PR recorded in Chinese Pharmacopoeia, including Polygonatum sibiricum, P. kingianum and P. cyrtonema, collectively called medicinal PR. Medicinal PR has a wide range of chemical components, mainly including polysaccharides, steroidal saponins, flavonoids, phenylpropanoids and alkaloids etc. It also has a wide range of pharmacological effects, such as anti-oxidation, anti-osteoporosis and anti-tumor effects. In this paper, we review the historical evolution, chemical components, pharmacological effects, and the effects of processing on ingredients and pharmacological effects of PR. We also analyze the limitations of the current research on PR, and put forward the prospects on the scientific connotation of processing, quality improvement, process innovation and new product development of PR for further researches.The enzyme linked immunosorbent assay of aflatoxin has been adopted in Chinese Pharmacopoeia(2020 edition). Based on high-throughput screening of monoclonal antibodies technology, monoclonal antibodies that can specifically recognize the aflatoxin B_1 and the total amount of aflatoxin B_1, B_2, G_1, and G_2 in Chinese herbal medicines were prepared. By optimizing the concentration of coating antibody, enzyme-labeled antigen, and the reaction system of enzyme-linked immunosorbent assay, the enzyme linked immunosorbent assay(ELISA) were developed for detection of aflatoxins in Chinese herbal medicines, decoction pieces, and preparation of Chinese medicine. In this method, the recovery test of actual samples is 60%-120%, and the relative standard deviation is less than 15%. In addition, in view of the complicated and expensive pretreatment methods for the determination of aflatoxin in Chinese herbal medicine, we developed a highly efficient pretreatment method of liquid-liquid extraction of aflatoxin in Chinese herbal medicine without immunoaffinity column.