Platycodon grandiflorum (Bell flower) is an important plant that has traditionally been used as herbal medicine for the treatment of cough, phlegm, sore throats, lung abscesses, chest pains, dysuria, and dysentery. The present study was initiated to investigate the feasibility of inducing shoot and root organogenesis in cultured explants of P. grandiflorum in a range of culture media and through use of various plant growth regulators (PGRs). The plantlets (Stem containing one node) were isolated and cultured on different concentrations of Murashige and Skoog (MS) medium supplemented with PGRs. We found that proliferation and elongation of shoots and roots could be achieved on ¼ MS for P. grandiflorum with wild and green petals and on ⅛ MS for P. grandiflorum with double petals. The highest levels of development and elongation of adventitious shoots and roots were observed when petal explants were cultured on ¼ MS (pH 3.8) supplemented with 5% sucrose. Increasing the agar concentration reduced shoot growth and rooting potential; nevertheless, the highest number of shoots and roots was observed on 0.6% agar. In the case of growth regulators, ¼ MS supplemented with 1 mg L-1 6-benzylaminopurine (BA) was found to be best for shooting, although higher concentrations of BA tended to reduce shoot and root elongation. The highest number of shoots was achieved on 0.5 mg ․ L-1 thidiazuron (TDZ) from double petal explants grown on ⅛ MS. However, root and shoot elongation were found to decrease when TDZ concentrations were increased. Low concentrations of kinetin, naphthalene acetic acid, indole acetic acid, and 3-indole butyric acid induced shoot and root proliferation and elongation. Taken together, our study showed that low concentrations of PGRs induced the greatest root formation and elongation, showing that the optimal concentration of PGRs for shoot proliferation was species-dependent.

Background : The roots of Codonopsis lanceolata have been used as a tonic crude drug and an edible plant in Korea. The plant mainly contains triterpenoid saponins, including codonolaside, codonolasideⅠ-Ⅴ, lancemaside A-G. Their saponins have shown anti-inflammatory effects such as bronchitis and cough, insomnia and hypomnesia. C. lanceolata is well known to affect various pharmacological effects for human health, and its consumption is increasing. Recently, plant and plant-derived products were treated a part of the healthcare system by applying the bioactive phytochemicals. Antioxidant and immune activity substances in food play an important role as a health-protecting factor. This study was designed to investigate the in vitro immune cell growth and xanthine oxidase Inhibitory activity of different storage period and storage temperature of C. lanceolata. Methods and Results : The plant materials were used the roots of C. lanceolata cultivated in Jeju area, Korea. Immune enhancing effect was conducted using T cell and B cell of human immune cells. Each cell incubated for 8 days with the sample extracts compared to the control group, and the immune activation was measured according to the growth of immune cells. The xanthine oxidase Inhibitory activity was measured by modifying the method of Noro(1983). In different storage period and storage temperature conditions, the immune cell growth of C. lanceolata extract promoted a concentration-dependent manner in both human T cell and B cell, and did not show a significant difference. The xanthine oxidase Inhibitory activity of C. lanceolata extract tended to decrease more, depending on the longer the storage period or the higher the storage temperature. Conclusion : These results of this study suggested that the root of C. lanceolata may assist in the potential biological activities, and can be used as a source of human health products.

Copper (Cu) is an essential micronutrient required for growth and development of plants. But, at a high concentration in soil, copper acts as a major toxic element to plant cells due to its potential inhibitory effects against many physiological and biochemical processes. In this study, the morphological and physiological changes were observed in the leaf of sorghum plants treated with different concentrations (0, 100, and 150 μM) of Copper (Cu). The results linked to morphological changes that plants treated with Cu suffered reduction in growth and morphological changes. In the ion concentration investigation, the concentrations of Cu2+ increased, the concentration of others interacting ions (Zn2+, Ca2+, Mn2+, Fe2+) were changed dramatically. For proteome analysis, 2-D combined with MALDI-TOF-TOF mass spectrometry was performed. Two dimensional gels stained with silver staining, a total of 422 differential expressed proteins (≥ 2-fold) were identified using Progenesis SameSpot software. A total of 24 spots from Cu-induced sorghum leaf and 21 spots from Cu-induced sorghum root were analyzed by mass spectrometry. Out of 24 protein spots from Cu-stressed leaf, of which 16 protein spots were up-regulated and 8 protein spots were down-regulated whereas out of 21 protein spots, a total of 9 protein spots were up-regulated and 12 spots were down-regulated from Cu-stressed root. Taken together, these studies revealed the effects of heavy metal, Cu on the growth and physiological characteristics in sorghum seedlings and proteome investigation, hoping to provide references on the mechanism of heavy metal damaging plants.

This study was performed to investigate the growth characteristics and inorganic components of Codonopsis lanceolata regarding regional differences. The plant height of Japanese Codonopsis lanceolata was 373.6 cm, so it’s revealed that it has more vigorous growth than Korean won. The flowering time of Korean Codonopsis lanceolata was 2 weeks faster than Japanese one. Total fresh weight of root was 41.0 g and 39.0 g for Korean and Japanese respectively, thus, no significance difference was found. However, regarding fresh weight, Korean one had a more fresh weight (35.4 g) of main root parts, but Japanese one had a more fresh weight (9.6 g) of the lateral root part. Each inorganic component was found more in the aboveground parts, regardless of the region and the content of K was the largest. Regarding the content of macroelements for each part of Codonopsis lanceolata, the content of Na, Mg, P, S, and Ca in Korean Codonopsis lanceolata was found the highest on the leaf, followed by stem and root. In the case of Japanese Codonopsis lanceolata, same result was found on the content of Mg and Ca, however, the highest content of Na and P was found in the stem.

This study was conducted to compare the growth, inorganic components, and proximate components of Codonopsis lanceolata grown in 10 regions of Korea for selecting superior species and breeding by crossing. Among the all tested lines, the shortest plant height (217.12 cm) was observed from the Ulleungdo region line (No. 4) while the longest (273.9 cm) was observed from Hwasun region line (No. 9). In addition, the lines of central and northern region (No. 1~No. 7) tend to have shorter plant height than those of southern region (No. 8~No. 9) except Jejudo region line (No. 10). Flowering tends to be late towards southern region, and lines in central and northern regions were started flowering about 2 weeks earlier than those in southern regions. However, the heaviest root weight was 13.1 g, found in only Jejudo line (No. 10) whereas there was no significant difference found in the other regions which have a range of 8.3~11.0 g. The inorganic components were varied in each line, however, proportion of macroelements, such as K, Ca, and P, was the largest for every line. Especially for Heongseong region line (No. 2), had larger proportion of macroelements than the others. There was a difference of proximate compositions of Codonopsis lanceolata, except the moisture content, among all regions, however, it was generally shown that the content of crude protein (1.31~3.76%) and crude fiber (2.18~3.12%) was the highest.