The Application of Vibrational Spectroscopy Techniques in the Qualitative Assessment of Material Traded as Ginseng.

The name "ginseng" is collectively used to describe several plant species, including Panax ginseng (Asian/Oriental ginseng), P. quinquefolius (American ginseng), P. pseudoginseng (Pseudoginseng) and Eleutherococcus senticosus (Siberian ginseng), each with different applications in traditional medicine practices. The use of a generic name may lead to the interchangeable use or substitution of raw materials which poses quality control challenges. Quality control methods such as vibrational spectroscopy-based techniques are here proposed as fast, non-destructive methods for the distinction of four ginseng species and the identification of raw materials in commercial ginseng products. Certified ginseng reference material and commercial products were analysed using hyperspectral imaging (HSI), mid-infrared (MIR) and near-infrared (NIR) spectroscopy. Principal component analysis (PCA) and (orthogonal) partial least squares discriminant analysis models (OPLS-DA) were developed using multivariate analysis software. UHPLC-MS was used to analyse methanol extracts of the reference raw materials and commercial products. The holistic analysis of ginseng raw materials revealed distinct chemical differences using HSI, MIR and NIR. For all methods, Eleutherococcus senticosus displayed the greatest variation from the three Panax species that displayed closer chemical similarity. Good discrimination models with high R²X and Q² cum vales were developed. These models predicted that the majority of products contained either /P. ginseng or P. quinquefolius. Vibrational spectroscopy and HSI techniques in tandem with multivariate data analysis tools provide useful alternative methods in the authentication of ginseng raw materials and commercial products in a fast, easy, cost-effective and non-destructive manner.

[Cloning of Eleutherococcus senticosus calmodulin gene and effect of endophytic fungus on expression amount of gene].

OBJECTIVE: To clone calmodulin (CaM) gene in Eleutherococcus senticosus, and study the effect of endophytic fungi on expression amount of CaM gene. METHOD: The CaM full length cDNA sequence was cloned by rapid amplification of cDNA ends (RACE). The gene was analyzed and corresponding structure and functions were predicted by the bioinformatics methods. The expression amount of CaM gene affected of endophytic fungus P116-1a, P116-1b, P1094 and P312-1 was detected by RT-PCR. RESULT: The full length of CaM cDNA was 856 bp containing an ORF of 450 bp that encoded a protein of 149 amino acids. The homologous of predicted protein was almost 100% with plants like Panax ginseng and Daucus carota. RT-PCR results showed that endophytic fungus improved CaM expression amount significantly (P<0.05). The highest expression amount of CaM occurred 90 d after reinoculated with endophytic fungi P1094, up to 2.96 times of the control. CONCLUSION: The CaM gene of E. senticosus was successfully cloned for the first time. The results demonstrated that endophytic fungus of E. senticosus improved CaM expression amount significantly.

[Community ecology of Acanthopanax giraldii in west Sichuan plateau].

OBJECTIVE: To study the community characteristics of Acanthopanax giraldii and its role and adaptability in the community. METHOD: The methods of community ecology were used to investigate vegetation composition in different sample plots and the number of the clumps and clonal ramets. The importance value of species and biodiversity index of each plot was calculated. The life form spectra in different community were counted. The chi-square test was applied to analyze the dependence degree of A. giraldii to other main shrub species in the community. RESULT: The investigation had showed that A. giraldii community could be divided into three types. The number of A. giraldii population in each type had great difference. Statistical analysis had shown that there's no correlation between the growth of A. giraldii with biodiversity and no significant interspecific association between A. giraldii and other main shrub species in the community yet. CONCLUSION: The population growth of A. giraldii was sensitive to Sunshine. A. giraldii maybe has the biological characteristics for artificial planting as a single population.