Epimedium pubescens
Epimedium pubescens
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Natural products/compounds from Epimedium pubescens
- Cat.No. Product Name CAS Number COA
- BCN5590 Daidzein486-66-8 Instructions
Pollen competition between morphs in a pollen-color dimorphic herb and the loss of phenotypic polymorphism within populations.[Pubmed: 29399790]
Flower color polymorphism is relatively uncommon in natural flowering plants, suggesting that maintenance of different color morphs within populations is difficult. To address the selective mechanisms shaping pollen-color dimorphism, pollinator preferences and reproductive performance were studied over three years in Epimedium pubescens in which some populations had plants with either green or yellow pollen (and anthers). Visitation rate and pollen removal and receipt by the bee pollinator (Andrena emeishanica) did not differ between the two color morphs. Compared to the green morph, siring success of the yellow morph's pollen was lower, but that of mixtures of pollen from green and yellow morphs was lowest. This difference, corresponding to in vivo and ex vivo experiments on pollen performance, indicated that pollen germination, rather than tube growth, of the green morph was higher than that of the yellow morph and was seriously constrained in both morphs if a pollen competitor was present. A rare green morph may invade a yellow-morph population, but the coexistence of pollen color variants is complicated by the reduced siring success of mixed pollinations. Potential pollen competition between morphs may have discouraged the maintenance of multiple phenotypes within populations, a cryptic mechanism of competitive exclusion.
[Genetic relationship and population genetic diversity of Epimedium pubescens and its related species based on ISSR and non-glandular hair characteristic].[Pubmed: 29171226]
In this study, 128 individuals form 14 Epimedium pubescens populations and 1 E. stellulatum population were analyzed by ISSR marker. The data were calculated by POPGENE software and clustered by UPGMA method. Optical microscope was used to observe the main types of the non-glandular hairs and their characteristics in each population. It is found that the following conclusions: Non-glandular hairs can be divided into five morphological categories, long straight pubescent, curly pubescent, appressed curly pubescent, pseudo short appressed hairs and long appressed. Eight primers were screening and a total of 94 bands were detected in ISSR, among which 90 were polymorphic bands. Based on the results of ISSR cluster analysis, 15 populations were divided into 3 clades. E. stellulatum populations should be incorporated into the E. pubescens or as avariety under E. pubescens not be independent and as it has no separate phylogenetic branch for a cluster. The genetic relationship among the populations of E. pubescens was closely related with its geographical distribution and non-glandular hair features. But there were also some inconsistency, which provided a good hint for the further study on the interspecific relationship and natural speciation manner of Epimedium species. Population diversity analysis showed Nm=0.354 4, Nei's=0.585 2. It was showed that E. pubescens has high genetic diversity among populations, for which the main reason was probably the high inbreeding rate and the small range of seed dispersal.
Contents of Heavy Metals in Chinese Edible Herbs: Evidence from a Case Study of Epimedii Folium.[Pubmed: 28620728]
Toxic heavy metal contamination in Chinese edible herbs has raised a worldwide concern. In this study, heavy metals in Epimedii Folium, an edible medicinal plant in China, were quantitatively analyzed. Variations of heavy metals in different species, in various organs (i.e., leaves, stems, and roots), in wild-growing and cultivated plants, and in 35 market samples of Epimedii Folium, were systematically investigated. In all of Epimedium samples, Hg (mercury) was not detectable (0.00 μg/g). Four species, Epimedium pubescens, Epimedium sagittatum, Epimedium brevicornu, and Epimedium wushanense, were found to contain Cu (copper) and Pb (lead). And contents of Cu and Pb in E. brevicornu were significantly higher than those in other species (P < 0.01). In wild-growing and cultivated Epimedium plants, Cd (cadmium) and As (arsenic) were not detectable, and concentrations of Cu and Pb in wild-growing plants were significantly higher than those in cultivated plants (P < 0.01). Cd was not detectable in leaves, roots, and stems, while organ specificity was apparent in the distribution of Cu, As, and Pb. And the highest levels of Cu and Pb were observed in roots and leaves, respectively. In Chinese markets, several samples of Epimedii Folium contained excessive Cu, Cd, As, and Pb beyond the national permissible limits. In summary, there was a large variation of heavy metals among Epimedii Folium samples, and Cu and Pb were the most important heavy metals contaminating the edible medicinal plant. Application of Epimedii Folium to drug and food industries will need to focus more on toxic heavy metal contamination.
Icariin induces osteogenic differentiation of bone mesenchymal stem cells in a MAPK-dependent manner.[Pubmed: 25867119]
Icariin, a flavonoid isolated from Epimedium pubescens, has previously been identified to exert beneficial effects on preventing bone loss and promoting bone regeneration. However, molecular mechanisms for its anabolic action have, up to now, remained largely unknown.
[Flavonoids from leaves of Epimedium pubescens].[Pubmed: 24066589]
Eleven compounds were isolated from the leaves of Epimedium pubescens by means of various chromatographic techniques such as silica gel, MCI, Sephadex LH-20 and preparative HPLC. Their structures were identified as anhydroicaritin (1), icariside II (2), 2'''-O-rhamonosyl-icariside II (3), desmethylanhydroicaritin (4), baohuosaide II (5), epimedokoreanin B (6), acuminatin (7), tricin(8), kaempferol (9), daidzein (10) and 4-hydroxy ethyl benzoate (11) on the basis of physicochemical properties and spectroscopic data analysis. Among them, compound 11 was isolated from Epimedium species for the first time, and other compounds were obtained from this plant for the first time.