Object To isolate and identiified the chemical constituents from the EtOAc soluble fraction of the rhizome of Semiliquidambar cathayensis Chang with anti inflammatory activity Methods The EtOAc soluble fraction of anti inflammatory activity was determined on the basis of the mouse ear irritant assay by croton oil The chemical constituents were isolated by silica gel column chromatography, and their structures were identiified by IR, MS and NMR spectroscopic methods including HMQC and HMBC experiments Results Four oleanolic acid derivatives, oleanolic acid, 3 oxo olean 12 en 28 oic acid 2?, 3? dihydroxyolean 12 en 28 oic acid, 2?, 3?, 23 trihydroxyolean 12 en 28 oic acid (arjunolic acid); three ellagic acid derivatives, ellagic acid 3, 3′ dimethylether, ellagic acid 3, 3′, 4 trimethylether, and ellagic acid 4 O ? D xylopyranoside 3, 3′ dimethylether, together with ? sitosterol and octadecylic acid were obtained and identified Conclusion All the nine compounds were isolated for the first time from the title plant

In order to obtain salt-tolerant variant plants of Dandelion (Taraxacum officinale Weber), the leaf discs were excised from 20 to 30-day old seedlings to produce callus, then the induced calli were transferred to selection mediums containing 1.5% NaCl. After regenerating and rooting, these salt-tolerant calli finally developed into 12 variant plantlets. Compared with the wild-type, these regenerated plants produced more trichomes on their leaves, and had larger leaves and shorter petioles. Additionally, the dumpy roots and an approximately 2-cm bract in middle parts of the floricanes were clearly observed in these salt-tolerant plants. By RAPD (Random Amplified Polymorphic DNA) and SDS-PAGE analysis, these salt-tolerant plants showed differences from the control at DNA and protein levels. With 1.5% NaCl treatment, the antioxidant enzyme activity, proline content, and flavonoid concentration were higher in these salt-tolerant plants, whereas maloaldehyde concentration was significantly lower. Salt-tolerant lines of T. officinale showed stronger anti-oxidative activity and higher flavonoid contents.
Culture Techniques ; methods ; Drug Tolerance ; genetics ; Flavones ; analysis ; Genetic Variation ; genetics ; Plant Leaves ; genetics ; growth & development ; Random Amplified Polymorphic DNA Technique ; Salt-Tolerant Plants ; genetics ; growth & development ; Seedlings ; genetics ; growth & development ; Sodium Chloride ; pharmacology ; Superoxide Dismutase ; analysis ; Taraxacum ; genetics ; growth & development