Furthermore, most ingredients of traditional Chinese medicine showed a poor water-soluble property. In view of the research status and existing problems of traditional Chinese medicine in nerve injury, the suggestions for the research and development of the potent neuroprotective agents were proposed in this study from the perspective of pharmacological mechanism research and preparation theory.To date, 205 compounds have been identified from different medicinal parts of Eucommia ulmoides, including lignans, iridoid terpenoids, phenols, flavonoids, terpenoids and steroids, polysaccharides and others. Their pharmacological effects include blood pressure-lowering, blood sugar-lowering, blood lipids-regulating, prevention of osteoporosis, anti-inflammation, liver protection, anti-cancer and so on.  https://www.selleckchem.com/products/vcmmae.html  Their efficacy and mechanism from different parts are slightly different. In this paper, the chemical composition, pharmacological action and mechanism of different parts of E. ulmoides were systematically summarized, as well as its quality control and processing research, to provide theoretical basis for further rational development and utilization of E. ulmoides.Natural indigo, as one of the oldest dyes, is also a pivotal dye utilized in cotton fabrics today. A diversity of plants rich in indigo compounds belong to traditional Chinese herbal medicines. Indigo compounds have a variety of biological and pharmacological activities, including anticonvulsant, antibacterial, antifungal, antiviral and anticancer activities. A substantial progress in indigo biosynthesis has been made lately. This paper summarizes the value of indigo from the aspects of cultural history, biosynthetic pathways and the medicinal activities of its related derivatives involved in the pathways. In addition, the latest research advancements in indigo biosynthetic pathways is demonstrated in this paper, which would lay the theoretical foundation for the exploration and utilization of natural indigo.The study is aimed to create seed materials and dissect the molecular mechanism of sexual propagation of Gastrodia elata. In this research, thirteen characteristics of flowers, flower stem, fruits, seeds and embryo of G.elata f. glauca and G.elata f. elata after bolting at room temperature(RT) and constant temperature(CT, 22 ℃) were determined. It was found that the constant temperature condition could prolong the bolting duration of G.elata and increased the number of flowers, while the variety of G.elata only affected the bolting duration, but had no effect on the number of flowers, and the G.elata f. elata was more likely to bolting than the G.elata f. glauca. The variety of G.elata was the main factor affecting the time of dehiscent fruit of G.elata, the temperature was the main factor affecting the fruits number and fruits diameter, and the constant temperature was more conducive to the fruits shape of G.elata than the room temperature. There was no significant difference in seed phenotype of G.elata varieties, but the seed embryo of G.elata seeds cultivated at constant temperature was fuller than that of G.elata cultivated at room temperature, and temperature had less influence on the seed phenotype of G.elata. But it was interesting to find that temperature and varieties had greater influence on the seed embryo of G.elata, constant temperature cultivation was more conducive to the formation of seed embryo of G.elata, and more the seed embryo of G.elata f. elata was easier to form than the seed embryo of G.elata f. glauca. However, the development of seeds and embryos of G.elata was significantly affected, and the development of seeds and embryos of G.elata f. glauca was more sensitive to temperature than G.elata f. elata. The research suggested that it is advisable for G.elata to produce seed materials by bolting at constant temperature(22 ℃).Fungal disease is an important factor restricting the healthy development of Gastrodia elata industry. The control of fungal disease in G. elata is an important issue in production. This paper makes a detailed investigation on the current situation of G. elata disease in China through statistics on the failure rate, rotten pit rate and occurrence rate of G. elata disease in the main producing areas of China. It was found that G. elata disease was mainly infected from the top bud and junction, causing the occurrence rate of disease was 6%-17%, and the yield decreased by 10%-30%. The 23 dominant fungi were isolated from 18 typical G. elata disease samples. Through identification of colony morphology, mycelium morphology, spore morphology and genetic characteristics, they were finally identified as 13 species, belonging to 7 families and 7 genera. Trichoderma harzianum, Ilyonectria sp. and Ilyonectria destructans are the most frequently separated. Their isolation frequency were 22.22%,16.67%,16.67% respectively. Ilyonectria sp. and I. destructans were the first time isolated from G. elata disease samples. They may be the main pathogens causing soil-borne diseases of G. elata. T. harzianum has certain potential as Gastrodia biocontrol bacteria. This study can provide a theoretical basis for the research and development of control technology of Gastrodia fungi disease.The phenomenon that waste of fungus-growing materials in the planting process of Gastrodia elata is very common. It has been proved by practice that the used fungus-growing materials planted with G. elata can be used to plant Phallus impudicus. But the mechanism is unclear. In this study, we compared the different infested-capacity of Armillaria gallica and Phallus impudicus by morphological anatomy of the used fungus-growing materials. We also compared the differences on the two fungi consumed the main contents of fungus-growing materials, cellulose, lignin and hemicellulose, by using nitric acid-95% ethanol method, sulfuric acid method and tetrabromide method respectively, so that to explore the mechanism of A. gallica and P. impudicus recycle the fungus-growing materials, and to provide scientific basis for recycling the used fungus-growing materials of G. elata. The results showed that A. gallica had a strong ability to invade some parts outside the vascular cambium, but it had a weak ability to invade some parts inside the vascular cambium, while P.