ABSTRACT
OBJECTIVE: To optimize the extraction technology of total vitamin E in Euryale ferox. METHODS: With the extraction amount of total vitamin E as reference index, using extraction time, extraction times, ultrasound power and comminution degree as reference factors, single fator test and Box-Behnken design-response surface methodology was used to optimize the extraction technology of total vitamin E from E. ferox. The validation tests were conducted for 3 times (the amounts of E. ferox were 2.0, 20.0, 40.0 g). RESULTS: The optimal extraction technology of vitamin E included that extraction time of 80 min, extraction times of 3 times, ultrasound power of 240 W, comminution degree of 80 mesh. In validation test, extraction rates of total vitamin E were 2.063, 2.103, 2.085 mg/g (RSD=2.6%, 1.5%, 1.3%, n=3), the relative errors of which to predicted value (2.092 mg/g) were 0.14%, 0.53% and 0.33%, respectively. CONCLUSIONS: The optimal extraction technology is reasonable, stable and feasible, and can be used for the extraction of total vitamin E in E. ferox.
ABSTRACT
Objective: To identify Euryales Semen and its closely related species using the ITS2 barcode. Method:The total genomic DNAs were extracted from twenty samples of Euryales Semen and its closely related species. The ITS2 regions of the samples were amplified and bidirectional sequenced. Obtained sequences were submitted to the GenBank with Sequin 12.3. ITS2 sequences of 102 samples belonging to thirty species were downloaded from GenBank. The 122 ITS2 sequences were aligned and the genetic distances were analyzed with MEGA 5.1. Identification analyses were performed using BLAST1 and nearest distance methods, and were presented intuitively by constructing neighbor-joining (NJ) tree. Result: The length of ITS2 region of Euryales Semen was 214 bp, which was only one haplotype. There was significant divergence of the ITS2 regions among the samples. The NJ tree showed that Euryales Semen could be obviously differed from its closely related species, which had good 408 monophyly. Conclusion: ITS2 regions as a DNA barcode can stably and accurately distinguish Euryales Semen from its closely related species and also provide a new technique to ensure clinical safety in utilization of tradi-tional Chinese medicines. The new exploration could broaden the application of DNA barcoding technology in identification of Traditional Chinese Medicine.
ABSTRACT
Objective To study chromatography fingerprints of Zanthoxylum echinocarpum by HPLC.Methods Diamonsil C18 column(250 mm?4.6 mm,5 ?m) was used with acetonitrile-water gradient elution,at flow-rate of 1.0 mL/min,detection wavelength at 278 nm.Results HPLC was used to establish fingerprint chromatograph of water extraction from ten batches of Z.echinocarpum,which had been harvested from the same area in Zhangjiajie at the same time.The result showed that 11 peaks were common.Conclusion The method could be used for the quality control of Z.echinocarpum.