Objective: American ginseng is a medicinal plant with large market demands,however,its producing areas are shrinking because of the continuous cropping obstacles in China.Therefore,it is urgent to establish a suitabl...Objective: American ginseng is a medicinal plant with large market demands,however,its producing areas are shrinking because of the continuous cropping obstacles in China.Therefore,it is urgent to establish a suitable model to determine the new producing areas.Here we evaluated and predicted the suitable areas of American ginseng using the maximum entropy model(Max Ent).Methods: Based on the 37 environmental variables over thirty years from 1970 to 20 0 0 and 226 global distribution points of American ginseng,Max Ent was used to determine the global ecological suitable areas for American ginseng.The Receiver Operating Curve(ROC)was used to evaluate the model prediction accuracy.Meanwhile,an innovative ecological variable,the precipitation–temperature ratio,was established to indicate the climate characteristic in the American ginseng suitable areas based on the monthly precipitation and temperature.Results: The potential ecological suitable areas of American ginseng were primarily in Appalachian Mountain in America and Changbai Mountain in China,about in the range of 35 °N–50 °N,60 °W–120 °W and 35 °N–50 °N,110 °E–145 °E,respectively,including the United States,Canada,China,North Korea,South Korea,Russia and Japan.South Korea and Japan were the potential producing regions.The precipitation–temperature ratios were stable at(0.22,0.56)of the vigorous growth period(April–October)in the best suitable areas of American ginseng,serving as characteristic parameters to optimize the prediction model.The model showed that the common soil parameters were pH 4.5–7.2,Base Saturation(BS)above 80%,Cation Exchange Capacity(CEC)10–20 cmol/kg,organic carbon(OC)〈 1.4%,and the soil types were sandy loam or loam.Conclusion: An optimized Max Ent model was established to predict the producing area for American ginseng that needed to be validated by a field test.展开更多
American ginseng(Panax quinquefolius L.) is a well-known Asian traditional herbal medicine with a large market demand. The plant is native to eastern North America, and its main producing areas worldwide are decreasin...American ginseng(Panax quinquefolius L.) is a well-known Asian traditional herbal medicine with a large market demand. The plant is native to eastern North America, and its main producing areas worldwide are decreasing due to continuous cropping obstacles and environmental changes. Therefore, the identification of maximum similarities of new ecological distribution of P.quinquefolius, and prediction of its response to climate change in the future are necessary for plant introduction and cultivation. In this study, the areas with potential ecological suitability for P. quinquefolius were predicted using the geographic information system for global medicinal plants(GMPGIS) based on 476 occurrence points and 19 bioclimatic variables. The results indicate that the new ecologically suitable areas for P. quinquefolius are East Asia and the mid-eastern Europe, which are mainly distributed in China, Russia, Japan, Ukraine, Belarus, North Korean, South Korea, and Romania. Under global climate change scenarios, the suitable planting areas for P. quinquefolius would be increased by 9.16%–30.97%, and expanding north and west over the current ecologically suitable areas by 2070. The potential increased areas that are ecologically suitable include northern Canada, Eastern Europe, and the Lesser Khingan Mountains of China, and reduced regions are mainly in central China, the southern U.S., and southern Europe. Jackknife tests indicate that the precipitation of the warmest quarter was the important climatic factor controlling the distribution of P. quinquefolius.Our findings can be used as a useful guide for P. quinquefolius introduction and cultivation in ecologically suitable areas.展开更多
Objective:To investigate the hypoglycemic components from the acid hydrolyzates of Panax quinquefolius total saponins,and screen the active compounds by in vitro inhibitory activities toα-glycosidase enzymes and prot...Objective:To investigate the hypoglycemic components from the acid hydrolyzates of Panax quinquefolius total saponins,and screen the active compounds by in vitro inhibitory activities toα-glycosidase enzymes and protein tyrosine phosphatase-1 B(PTP1 B).Methods:The hydrolyzates were chromatographed repeatedly over silica gel column,and the structures of the compounds were determined by means of NMR.The in vitro bioassay was performed through the inhibitory effects onα-glucosidase or/and PTP1 B.Results:Eight compounds were isolated,which identified as 20(S)-panaxadiol(1),(20 S,24 R)-dammarane-20,24-epoxy-3β,6α,12β,25-tetraol(2),20(R)-dammarane-3β,12β,20,25-tetraol(3),20(S)-dammarane-3β,6α,12β,20,25-pentol(4),20(R)-dammarane-3β,12β,20,25-tetrahydroxy-3β-O-β-D-glucopyranoside(5),β-sitosterol(6),oleanolic acid(7)and 20(S)-protopanaxadiol(8).Compound 5 was ginseng triterpenoid isolated from the acid hydrolysates of total saponins from P.quinquefolius for the first time.In this paper,the possible in vitro inhibitory activities were investigated.Compound 5 exhibited significantly inhibitory activity againstα-glucosidase,and the IC50 value[(0.22±0.21)μmol/L]was about 43-fold lower than positive control.For the PTP1 B inhibition assay,compound 5 indicated the strongest inhibitory effect with IC50 of(5.91±0.38)μmol/L,followed by compound 4 with IC50 of(6.21±0.21)μmol/L,which were all showed competitive inhibitory pattern by using a Lineweaver-Burk plot.Conclusion:These results supported the potential application of dammaranes from acid hydrolyzates of P.quinquefolius total saponins can be used as ingredients of ancillary anti-diabetic agent or functional factor.展开更多
Panax quinquefolius L.(American ginseng)and Panax ginseng C.A.Meyer are famous herbal medicines.Accurate authentication of the species has grown to be a significant impact.This study aims to develop a PCR kit for the ...Panax quinquefolius L.(American ginseng)and Panax ginseng C.A.Meyer are famous herbal medicines.Accurate authentication of the species has grown to be a significant impact.This study aims to develop a PCR kit for the authentication of Panax quinquefolius L.and Panax ginseng based on the nuclear internal transcribed spacer 2(ITS2)gene with the improved PCR-restriction fragment length polymorphism(PCR-RFLP)method.The reagent components in the development work were prepared and determined by the kit consisting of the DNA extraction,PCR amplification,and restriction enzyme digestion systems.A total of 21 batches of Panax quinquefolius L.and Panax ginseng samples collected from different areas were validated.Their specificity,stability,and repeatability were evaluated.The purity of genomic DNA extracted was 1.73±0.13 according to the ratio of A_(260)/A_(280),and the mass concentration was 3.15±0.22μg/g(using the kit).PCR amplicons of Panax quinquefolius L.and Panax ginseng were 122 bp in length.After the PCR products were digested by restriction enzyme Hinf I,a distinct pattern exhibited in the species of Panax quinquefolius L.with two fragments of 40 bp and 80 bp respectively,whereas those from Panax ginseng in addition to adulterated samples could not.Evaluation confirmed that the DNA kit results were stable and repeatable after 10,15,and 20 freeze-thaw cycles:the evaluation was 100%specific.The DNA kit proposed in the study can be used for the identification of Panax quinquefolius L.展开更多
Ocotillol(OT)-type ginsenosides,one subtype of ginsenosides,consist of a dammarane skeleton and a tetrahydrofuran ring.Most naturally-occurring OT-type ginsenosides exist in Panax species,particularly in Panax quinque...Ocotillol(OT)-type ginsenosides,one subtype of ginsenosides,consist of a dammarane skeleton and a tetrahydrofuran ring.Most naturally-occurring OT-type ginsenosides exist in Panax species,particularly in Panax quinquefolius,which may be attributed to the warm and humid climate of its native areas.Till now,merely 28 types of naturally-occurring OT-type ginsenosides have been isolated.In contrast,semi-synthesized OT-type ginsenosides are attracted considerable attentions.These ginsenosides can be obtained through oxidation and cyclization of side chains of dammarane-type ginsenosides,and other methods,which may change their physical and chemical properties and further improve their bioavailabilities.It is also notable that the pharmacological activities of ginsenosides are closely related to the stereoisomers caused by the configuration at C-20.Semi-synthesis of OT-type ginsenosides can facilitate our understanding of the biosynthesis,transformation and metabolism of OT-type ginsenosides in the body.This review will systematically summarize the research progress on naturally-occurring and semi-synthetic OT-type ginsenosides,which provides a theoretical basis for their bioactivity-guided research.展开更多
Panax ginseng and Panax quinquefolius have similar bioactive components and morphological characteristics, but they are known to have different medicinal values, high-sensitive and accurate method is expected to ident...Panax ginseng and Panax quinquefolius have similar bioactive components and morphological characteristics, but they are known to have different medicinal values, high-sensitive and accurate method is expected to identify the sources of ginseng products and evaluate the quality, but with a huge challenge. Our established UHPLC-TOF/MS method coupled with orthogonal partial least squares discriminant analysis(OPLS-DA) model based on 18 ginsenosides was applied to discriminate the sources of raw medicinal materials in ginseng products, and nested PCR strategy was used to discover 6 novel single nucleotide polymorphism(SNP)sites in functional dammarenediol synthase(DS) gene for genetic authentication of P. ginseng and P. quinquefolius for the first time.OPLS-DA model could identify the sources of raw ginseng materials are real or not. SNP markers were applied to identify ginseng fresh samples as well as commercial products, and proved to be successful. This established molecular method can tell exact source information of adulterants, and it was highly sensitive and specific even when total DNA amount was only 0.1 ng and the adulteration was as low as 1%. Therefore, this study made an attempt at the exploration of new type SNP marker for variety authentication and function regulation at the same time, and the combination of chemical and molecular discrimination methods provided the comprehensive evaluation and authentication for the sources of ginseng herbs and products.展开更多
基金supported by National Natural Science Foundation of China (81473304)National Science and Technology Support Program (2015BAI05B01)
文摘Objective: American ginseng is a medicinal plant with large market demands,however,its producing areas are shrinking because of the continuous cropping obstacles in China.Therefore,it is urgent to establish a suitable model to determine the new producing areas.Here we evaluated and predicted the suitable areas of American ginseng using the maximum entropy model(Max Ent).Methods: Based on the 37 environmental variables over thirty years from 1970 to 20 0 0 and 226 global distribution points of American ginseng,Max Ent was used to determine the global ecological suitable areas for American ginseng.The Receiver Operating Curve(ROC)was used to evaluate the model prediction accuracy.Meanwhile,an innovative ecological variable,the precipitation–temperature ratio,was established to indicate the climate characteristic in the American ginseng suitable areas based on the monthly precipitation and temperature.Results: The potential ecological suitable areas of American ginseng were primarily in Appalachian Mountain in America and Changbai Mountain in China,about in the range of 35 °N–50 °N,60 °W–120 °W and 35 °N–50 °N,110 °E–145 °E,respectively,including the United States,Canada,China,North Korea,South Korea,Russia and Japan.South Korea and Japan were the potential producing regions.The precipitation–temperature ratios were stable at(0.22,0.56)of the vigorous growth period(April–October)in the best suitable areas of American ginseng,serving as characteristic parameters to optimize the prediction model.The model showed that the common soil parameters were pH 4.5–7.2,Base Saturation(BS)above 80%,Cation Exchange Capacity(CEC)10–20 cmol/kg,organic carbon(OC)〈 1.4%,and the soil types were sandy loam or loam.Conclusion: An optimized Max Ent model was established to predict the producing area for American ginseng that needed to be validated by a field test.
基金supported by the National Natural Science Foundation of China(Nos.81403053 and 81274013)the National Key Research and Development Program of China(No.2017YFC1702100)+1 种基金the National Science-technology Support Plan Project(No.2015BAI05B02)China Postdoctoral Science Foundation(No.2017M611128)
文摘American ginseng(Panax quinquefolius L.) is a well-known Asian traditional herbal medicine with a large market demand. The plant is native to eastern North America, and its main producing areas worldwide are decreasing due to continuous cropping obstacles and environmental changes. Therefore, the identification of maximum similarities of new ecological distribution of P.quinquefolius, and prediction of its response to climate change in the future are necessary for plant introduction and cultivation. In this study, the areas with potential ecological suitability for P. quinquefolius were predicted using the geographic information system for global medicinal plants(GMPGIS) based on 476 occurrence points and 19 bioclimatic variables. The results indicate that the new ecologically suitable areas for P. quinquefolius are East Asia and the mid-eastern Europe, which are mainly distributed in China, Russia, Japan, Ukraine, Belarus, North Korean, South Korea, and Romania. Under global climate change scenarios, the suitable planting areas for P. quinquefolius would be increased by 9.16%–30.97%, and expanding north and west over the current ecologically suitable areas by 2070. The potential increased areas that are ecologically suitable include northern Canada, Eastern Europe, and the Lesser Khingan Mountains of China, and reduced regions are mainly in central China, the southern U.S., and southern Europe. Jackknife tests indicate that the precipitation of the warmest quarter was the important climatic factor controlling the distribution of P. quinquefolius.Our findings can be used as a useful guide for P. quinquefolius introduction and cultivation in ecologically suitable areas.
基金supported by the National Natural Science Foundation of China(No.81602983)。
文摘Objective:To investigate the hypoglycemic components from the acid hydrolyzates of Panax quinquefolius total saponins,and screen the active compounds by in vitro inhibitory activities toα-glycosidase enzymes and protein tyrosine phosphatase-1 B(PTP1 B).Methods:The hydrolyzates were chromatographed repeatedly over silica gel column,and the structures of the compounds were determined by means of NMR.The in vitro bioassay was performed through the inhibitory effects onα-glucosidase or/and PTP1 B.Results:Eight compounds were isolated,which identified as 20(S)-panaxadiol(1),(20 S,24 R)-dammarane-20,24-epoxy-3β,6α,12β,25-tetraol(2),20(R)-dammarane-3β,12β,20,25-tetraol(3),20(S)-dammarane-3β,6α,12β,20,25-pentol(4),20(R)-dammarane-3β,12β,20,25-tetrahydroxy-3β-O-β-D-glucopyranoside(5),β-sitosterol(6),oleanolic acid(7)and 20(S)-protopanaxadiol(8).Compound 5 was ginseng triterpenoid isolated from the acid hydrolysates of total saponins from P.quinquefolius for the first time.In this paper,the possible in vitro inhibitory activities were investigated.Compound 5 exhibited significantly inhibitory activity againstα-glucosidase,and the IC50 value[(0.22±0.21)μmol/L]was about 43-fold lower than positive control.For the PTP1 B inhibition assay,compound 5 indicated the strongest inhibitory effect with IC50 of(5.91±0.38)μmol/L,followed by compound 4 with IC50 of(6.21±0.21)μmol/L,which were all showed competitive inhibitory pattern by using a Lineweaver-Burk plot.Conclusion:These results supported the potential application of dammaranes from acid hydrolyzates of P.quinquefolius total saponins can be used as ingredients of ancillary anti-diabetic agent or functional factor.
基金The present project was financially funded by Jilin Provincial Department of Education,China(JJKH20180377KJ)Jilin Provincial Department of Science and Technology,China(20190304108YY,20200404152YY,20200403047SF)TCM Science and Technology Project of Jilin Province,China(2019132).
文摘Panax quinquefolius L.(American ginseng)and Panax ginseng C.A.Meyer are famous herbal medicines.Accurate authentication of the species has grown to be a significant impact.This study aims to develop a PCR kit for the authentication of Panax quinquefolius L.and Panax ginseng based on the nuclear internal transcribed spacer 2(ITS2)gene with the improved PCR-restriction fragment length polymorphism(PCR-RFLP)method.The reagent components in the development work were prepared and determined by the kit consisting of the DNA extraction,PCR amplification,and restriction enzyme digestion systems.A total of 21 batches of Panax quinquefolius L.and Panax ginseng samples collected from different areas were validated.Their specificity,stability,and repeatability were evaluated.The purity of genomic DNA extracted was 1.73±0.13 according to the ratio of A_(260)/A_(280),and the mass concentration was 3.15±0.22μg/g(using the kit).PCR amplicons of Panax quinquefolius L.and Panax ginseng were 122 bp in length.After the PCR products were digested by restriction enzyme Hinf I,a distinct pattern exhibited in the species of Panax quinquefolius L.with two fragments of 40 bp and 80 bp respectively,whereas those from Panax ginseng in addition to adulterated samples could not.Evaluation confirmed that the DNA kit results were stable and repeatable after 10,15,and 20 freeze-thaw cycles:the evaluation was 100%specific.The DNA kit proposed in the study can be used for the identification of Panax quinquefolius L.
基金supported by the National Key R&D Program of China(No.2017YFC1702302)。
文摘Ocotillol(OT)-type ginsenosides,one subtype of ginsenosides,consist of a dammarane skeleton and a tetrahydrofuran ring.Most naturally-occurring OT-type ginsenosides exist in Panax species,particularly in Panax quinquefolius,which may be attributed to the warm and humid climate of its native areas.Till now,merely 28 types of naturally-occurring OT-type ginsenosides have been isolated.In contrast,semi-synthesized OT-type ginsenosides are attracted considerable attentions.These ginsenosides can be obtained through oxidation and cyclization of side chains of dammarane-type ginsenosides,and other methods,which may change their physical and chemical properties and further improve their bioavailabilities.It is also notable that the pharmacological activities of ginsenosides are closely related to the stereoisomers caused by the configuration at C-20.Semi-synthesis of OT-type ginsenosides can facilitate our understanding of the biosynthesis,transformation and metabolism of OT-type ginsenosides in the body.This review will systematically summarize the research progress on naturally-occurring and semi-synthetic OT-type ginsenosides,which provides a theoretical basis for their bioactivity-guided research.
基金the Macao Science and Technology Development Fund,FDCT(Nos.062/2017/A2,037/2014/A1,and 071/2011/A3)。
文摘Panax ginseng and Panax quinquefolius have similar bioactive components and morphological characteristics, but they are known to have different medicinal values, high-sensitive and accurate method is expected to identify the sources of ginseng products and evaluate the quality, but with a huge challenge. Our established UHPLC-TOF/MS method coupled with orthogonal partial least squares discriminant analysis(OPLS-DA) model based on 18 ginsenosides was applied to discriminate the sources of raw medicinal materials in ginseng products, and nested PCR strategy was used to discover 6 novel single nucleotide polymorphism(SNP)sites in functional dammarenediol synthase(DS) gene for genetic authentication of P. ginseng and P. quinquefolius for the first time.OPLS-DA model could identify the sources of raw ginseng materials are real or not. SNP markers were applied to identify ginseng fresh samples as well as commercial products, and proved to be successful. This established molecular method can tell exact source information of adulterants, and it was highly sensitive and specific even when total DNA amount was only 0.1 ng and the adulteration was as low as 1%. Therefore, this study made an attempt at the exploration of new type SNP marker for variety authentication and function regulation at the same time, and the combination of chemical and molecular discrimination methods provided the comprehensive evaluation and authentication for the sources of ginseng herbs and products.
