Herbal Epimedium species have been widely in Traditional Chinese Medicine for sexual enhancement, immunity improvement, anticancer and anti-aging treatment, with flavonoids and polysaccharides being the major active components. However, exhaustive depletion of wild sources warrants germplasm evaluation and quality resource exploration. A preliminarily analysis had previously indicated that a specific local geographic accession of Epimedium sagittatum found in Luotian (LT) county of Hubei Province (China) had a much higher content of total flavonoids and polysaccharides. In this study, we further investigated the medicinal component variation in the LT type under different light intensities and in different regions by the common-garden experiment. The results indicated a light intensity range of 40–160 μmol/m2/s was the most suitable for the synthesis and accumulation of total flavonoids, while polysaccharide accumulation was negatively correlated with the light intensity. Icariin was the component displaying the highest content among flavonoids, and the content of major flavonoid bioactive components was relatively stable in the third year after cultivation. There was significant correlation between the major flavonol glycoside constituents and the geographic location, and Central China followed by Northern China were the highly suitable regions for cultivation of LT type E. sagittatum. The results revealed that there was a functional balance between flavonoids and polysaccharides at different developmental stages, and the best harvesting stage should consider the primary contents of interest. This study provides important information on the exploration of quality resources, further breeding approaches and cultivation practices of E. sagittatum, and thus the important insights to enhance our understanding of quality control of traditional medicinal plants.
Epimedium brevicornu Maxim. is a traditional Chinese medicine herb with good effects on many diseases. In the present paper, the complete chloroplast genome of E. brevicornu was sequenced. The complete chloroplast genome of E. brevicornu was 159572 bp in length with 38.83% GC content, including four distinct regions: large single-copy region (86535 bp), small single-copy region (17641 bp), and a pair of inverted repeat regions (27698 bp). The chloroplast genome encoded 112 unique genes, which included 78 protein-coding genes, 30 tRNA genes, and 4 rRNA genes. Phylogenetic analysis with the previously reported chloroplast genomes of Epimedium showed that E. brevicornu with small flowers at first clustered with large-flowered E. acuminatum into a strongly supported branch, but not with Epimedium species having similar floral characters.
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