For many many thousand years, mankind has been using various plants as nutrient, beverage, cosmetics, dye and medicine to maintain health and to improve quality of life. In Aisa, particularly, Panax ginseng C.A. Meyer is considered to be the most precious plant among herbs, and ginseng has been in the spotlight worldwide. Even in the Western world, where there are greatly advanced research facilities and highly qualified man-power available, and are regarded to be capable of conquering any hard-to-cure ailments, many peoples has recently been reported to use herbal medicine, particularly ginseng. In the present compilation of papers, many scientists contributed papers pertaining to "Chemopreventive effects of ginseng". In order to facilitate the readers understand easier and better, I catalogued this collection as follows: The spiritual nature of ginseng in the Far East, the history of ginseng, nomenclature and geographical distribution of ginseng, and type of ginseng products.
Far East ; Human ; *Panax/classification ; Terminology

To optimize indices of molecular identification for authentication of Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix, four indices, including sequence similarity, specific positions, genetic distance and phylogenetic tree, were compared based on trnL-trnF sequences. Total DNA was extracted from Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix, and trL-trnF sequences were amplified and sequenced. Sequence similarity was calculated by BLAST analysis. Specific positions were compared by DNAman software. Genetic distance and phylogenetic tree were analyzed by Mega software. The results showed that the inter-specific and intra-specific similarity of P. ginseng and P. quinquefolius respectively was 100% and 99. 6%. There were four specific positions at G153A, T463A, C732G and T818C. The inter-specific genetic distance (0) of trL-trnF sequences was lower than intra-specific genetic distance (0. 004). P. ginseng can be distinguished from P. quinquefolius based on the phylogenetic tree. It is concluded that Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix can be authenticated by identification indices of sequence similarity, specific positions, genetic distance and phylogenetic tree. Index of specific positions based on trnL-trnF sequences is the most efficient index to authenticate Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix.
Chloroplasts ; genetics ; DNA Barcoding, Taxonomic ; methods ; Panax ; classification ; genetics ; Phylogeny ; Plant Proteins ; genetics ; Rhizome ; classification ; genetics

OBJECTIVETo distinguish the ginseng and American ginseng pieces accurately and rapidly by electronic nose technology and principal component analysis (PCA) method.

METHODThe optimum conditions of electronic nose for ginseng and American ginseng pieces, such as sample size and volume, headspace volume, incubation time and temperature were determined by the orthogonal test, the data were processed by the normalization method and the preprocessed data were analyzed PCA.

RESULTThe detection methods of ginseng and American ginseng pieces was established by electronic nose, and the odor fingerprint figures of ginseng and American ginseng pieces were obtained, and ginseng and American ginseng pieces were distinguished by PCA recognition pattern.

CONCLUSIONA new accurate and rapid method to distinguish ginseng and American ginseng pieces was established by electronic nose detection.

Current quality control patterns are limited to industrial application, for most of the natural chemical reference substances are expensive and unavailable. Herein, a method, quantitative analysis of multi-components with single marker (QAMS), was established and validated to simultaneously determine nine ginsenosides (ginsenoside Rg1, Re, Rf, Rh1, Rb1, Rc, Rb2, Rb3, Rd) in P. ginseng and four ginsenosides (ginsenoside Rg1, Rh1, Rb1, Rd) in P. notoginseng. Using ginsenoside Rb1 as the contrast, the relative correction factors (RCF) of the other eight ginsenosides were determined by HPLC-DAD. Within the linear ranges, the values of RCF of ginsenoside Rb1 to ginsenoside Rg1, Re, Rf, Rh1, Rc, Rb2, Rb3 and Rd were 1.400, 1.215, 1.517, 1.801, 0.944, 1.012, 1.143, and 1.135, respectively. The RCF had a good reproducibility in various instruments, chromatographic columns (RSD = 0.30% - 3.9%). According to their RCF, we simultaneously determined nine ginsenosides in P. ginseng only using one marker. In addition, the RCF of ginsenosides were used to simultaneously quantitative analysis of four ginsenosides in P. notoginseng. The results of QAMS method were validated by comparing with that of external standard method, and no obvious significant difference was found.
Chromatography, High Pressure Liquid ; methods ; Ginsenosides ; analysis ; Panax ; chemistry ; classification ; Quality Control ; Reproducibility of Results

OBJECTIVETo comparatively determine the genetic variation and differentiation of different breeding strains of Panax notoginseng for providing the basic information for genetic breeding.

METHODThe genetic diversity and genetic structure of the 17 breeding strains of P. notoginseng were assayed by using EST-SSR molecular marker.

RESULTA total of 136 polymorphic loci of EST-SSR were detected in the 17 breeding strains of P. notoginseng, with the PIC (polymorphism information content) being 0.78, H (the gene diversity within population) being 0.139, the I (the Shannon's information index) being 0.208. Gst (coefficient of gene differentiation) was 0.382 among the 17 strains. The cluster analysis of genetic similarity showed that the 17 strains of P. notoginseng and P. stipuleanatus were classified into 4 groups, while the 17 strains of P. notoginseng were classified into three subgroups.

CONCLUSIONThe genetic differentiation was detected among the 17 strains of P. notoginseng from the same cultivation population by bulk selecting. And it was feasible to detect the effect of bulk selection by EST-SSR markers.

As a traditional Chinese medicine in China, ginseng has a wide range of medicinal and health value. At present, the nutritional value of ginseng as a medicinal food has been a hotspot in studies. Intestinal flora plays an important role in the organism, which has been confirmed by many researchers. In order to find out the effect of long-term intake of ginseng extracts on the gut microbiota structure of rats, MiSeq sequencing platform was applied in macro gene sequencing of cecal contents in the long-term use of ginseng extracts modelin rats. According to the findings, after long-term administration with ginseng extracts, probiotics such as Bifidobacterium, Lactobacillus, Allobaculum and Clostridium, in the intestinal flora of rats were significantly increased, suggesting that long-term intake of ginseng extracts could facilitate the growth of probiotics. Meanwhile, some pathogenic bacteria, such as Butyricimonas, Parabacteroides, Alistipes, Helicobacter, were significantly down-regulated, indicating that long-term intake of ginseng extracts may have a positive effect in inhibiting the colonization of pathogenic bacteria. In conclusion, this study provided an important basis for the research on the effect of long-term use of ginseng extracts on the intestinal flora of rats.
Animals ; Bacteria ; classification ; China ; Gastrointestinal Microbiome ; drug effects ; Panax ; chemistry ; Plant Extracts ; pharmacology ; Rats

This study was performed to investigate the kinds of health food advertised and sold through media like printed matter, TV broadcasting or internet. It was found that fifty three percent of the health food was circulated through internet, 27% through printed matter, 9% through TV Broadcasting. When the health foods was classified, the proportion of special purpose nutritious foods was 36.1%, health aid foods 33.9%, uncooked powdered foods 18.5%, functional foods for health 4.9%, Ginseng products 3.9%, and tea 0.9%. The special purpose nutritious foods was composed of 59% of nutrition supplementary foods, 24% of dietary fiber foods, 9% of weaning foods, 7% of milk formula and 2% of HCA. Vegetable extracts occupied 21.1% of health aid foods, yeast 7.5%, mushroom extracts 7.0%, chitosan 6.2%, aloe 5.3%. Dried powdered type health food occupied the highest proportion. The other type were capsule(18.8%), tablet(18.1%), and liquid type(16.4%). When the health food was classified with health claim, the proportion of "nutrition supplementation" was the highest (23.9%), "diet" 14.9%, "ergogenic"(18.8%), "promoting bowel movement" 7.8%, "growth" 5.7%, "regulation of blood sugar" 4.5%, "improving of immunity"(2.4%) and anti-aging effect(2.4%).
Agaricales ; Aloe ; Chitosan ; Classification* ; Dietary Fiber ; Functional Food ; Food, Organic* ; Internet* ; Mass Media* ; Milk ; Panax ; Tea ; Vegetables ; Weaning ; Yeasts

To obtain biocontrol fungus for Alternaria panax,the antifungal effects of one strain of endophytic fungi isolated from leaves of healthy ginseng were screened and evaluated by using dual-culture method,and the taxonomic assignment of the screened strain was identified based on the morphological characters and ITS sequence analysis. The results of dual-culture showed that one of the endophytes marked as FS-01 had good antifungal effects and the inhibitory rates of FS-01 strain to A. panax was( 60. 21±0. 12) %.The hyphae junction of the both strains,A. panax dissolved,broke and winded,while the hyphae of FS-01 strain remained normal. The inhibitory rates of non-sterilized FS-01 strain fermentation liqud was( 13. 94±0. 21) %. Strain FS-01 identified as Chaetomium globosum.
Alternaria ; pathogenicity ; Antibiosis ; Chaetomium ; classification ; isolation & purification ; Endophytes ; isolation & purification ; Fungicides, Industrial ; Panax ; microbiology ; Plant Diseases ; prevention & control

Quality variation and ecotype classification of Chinese herbal medicine are important scientific problems in Daodi herbal medicine research. The diversity of natural environmental conditions has led to form unique multi-Daodi, multi-product areas that produce particular Chinese herbal medicine. China is one of three big American ginseng (Panax quinquefolium L.) producing areas worldwide, with over 300 years of application and 40 years of cultivation history. Long-term production practice has led to the formation of three big advocate produce areas in China: Northeast province, Beijing and Shandong. P. quinquefolium L. grown under certain environmental conditions will develop long-term adaptations that will lead to more stable strains (different ecotypes). P. quinquefolium L., can vary greatly in quality; however, the ecological mechanisms causing this variation are still unclear. Root samples were collected from four-year-old cultivated P. quinquefolium L. plants in the three major genuine (Daodi) American ginseng-producing areas of Northeast province, Beijing and Shandong province, China. Ultra-performance liquid chromatography was used to analyze the contents of eight ginsenosides (Rg1, Re, Rb1, Rb2, Rb3, Rc, Rd, Rg2). Data for nine ecological factors, including temperature, moisture and sunlight, were obtained from the ecological database of Geographic Information System for Traditional Chinese Medicine. Soil samples from the sampling sites were collected. Effective boron and iron, available nitrogen and potassium, as well as other trace elements and soil nutrients, were determined by conventional soil physicochemical property assay methods. Analytical methods of biostatistics and numerical taxonomy were used to divide ecotypes of the three main Panax quinquefolium L. producing areas in China based on ginsenoside content, climate, soil and other ecological factors. To our knowledge, this is the first time that ecological division of P. quinquefolium L. producing areas in China has ever been conducted. The results show that there are two chemoecotypes of P. quinquefolium L. in China: ginsenoside Rb1-Re from outside Shanhaiguan, and ginsenoside Rg2-Rd from inside Shanhaiguan. Similarly, there are two types of climatic characteristics: inside Shanhaiguan (Beijing, Shandong) and outside Shanhaiguan (Northeast). This suggests that the formation and differentiation of chemoecotypes of P. quinquefolium L. is closely related to variability of the climatic and geographical environment. Additionally, ecological variation of the three main producing areas, characteristics of two climatic ecotypes, and soil characteristics are also discussed and summarized. These results provide experimental scientific evidence of the quality variation and ecological adaptation of P. quinquefolium L. from different producing areas. They also deepen our understanding of the biological nature of Daodi P. quinquefolium L. formation, and offer novel research models for other multi-origin, multi-Daodi Chinese herbal medicines ecotypes. In addition, the results demonstrate the critical need for improving quality, appropriate ecological regionalization and promoting industrialized development of P. quinquefolium L.
Biodiversity ; China ; Chromatography, High Pressure Liquid ; methods ; Climate ; Cluster Analysis ; Ecotype ; Ginsenosides ; analysis ; Panax ; chemistry ; classification ; Plant Roots ; chemistry ; Plants, Medicinal ; chemistry ; classification ; Soil ; Temperature

To build up a stable and easy doing method for molecular identification in traditional Chinese medicine, on basis of RAPD, the new method mainly changed the primer length and PCR annealing temperature. Panax ginseng, Panax quinquefolius and its nine adulterants were used to establish the method and test it using MARMS primers published in 2004. The new method also used to authenticate Chinese Materia Medica of Tian-hua-fen (Radix Trichosanthes) and Bai-zhi (Radix Angelica). Primer Pg-q36F obtained polymorphic bands of P. Ginseng, P. quinquefolius and its adulterants. The identification result is identical to that published before and more stable. Primer TkS1-64F obtained polymorphic bands of Tian-hua-fen and its nine adulterants. Primer AfS1-100F obtained polymorphic bands of Bai-zhi and its three adulterants. The method has good stability and reproducibility and can easily identify authertic medicines from their adulterants. It was a potential molecular method to identify other Chinese Materia Medica. The method was named as anchored primer amplification polymorphism DNA (APAPD).
Angelica ; classification ; genetics ; DNA Primers ; DNA, Plant ; analysis ; genetics ; Drug Contamination ; prevention & control ; Medicine, Chinese Traditional ; standards ; Panax ; classification ; genetics ; Plants, Medicinal ; classification ; genetics ; Quality Control ; Random Amplified Polymorphic DNA Technique ; methods ; Reproducibility of Results ; Trichosanthes ; classification ; genetics