파굴파리의 발육단계별 특성을 조사한 결고, 20, 25, 에서 난기간은 4.5일, 2.9일, 1.9일, 유충기간은 12.7일, 5.8일, 4.5일, 용기간은 20.1일, 16.3일, 13.0이로 총성숙기간은 32.5일, 25.0일, 19.4일이었다. 이 결과는 토대로 계산된 발육영점온도는 난이 , 유충이 , 용은 였고, 유효적산온도는 난이 33.0일도, 유충이 86.1일도, 용이 293.6일도였다. 성충은 빛을 조사한 후 4시간 30분 이내에 77.5%가 우화하였고, 8시간 30분 이후에는 전혀 우화하지 않았다. 암컷의 수명은 8.5일, 수컷은 5.0일이었고 암컷의 산란기간은 6.8일이었다. 산란수는 165.8개, 흡즙혼수는 983.8개였다.
We have studies fatty acid composition of water extracts of parts of omija (Schizandra chinensis Baillon) and antioxidant activities of fractionated omija parts (fruits, endocarps, seeds) were determined by DPPH methods and by in vitro hepatic microsomal lipid peroxidation system. Fatty acid composition was not different by parts of omija and major fatty acids are linoleic, oleic, and palimitic acids, among fatty acids is water extracts of parts of omija, linoleic acid was highest in content. Methanol and buthanol fractions of seeds and ethyl acetate fraction of endocarps showed stronger antioxidant activities by DPPH methods. Methanol and buthanol fractions of seeds also showed on inhibitory effect on in vitro liver microsomal lipid peroxidation.
The effect of water extract in fruits of Omija (Schizandra chinensis Baillon) on alloxan-induced diabetic rats were determining the contents of metabolites and enzyme activities in the liver and serum of rat. The treatment with water extract in fruits of Omija showed increased in contents of protein, glycogen, and activity of glucose-6-phosphate dehydrogenase and a decreased in pyruvate content in the hepatic tissue from the alloxan treated group. These treatments were decreased contents of glucose, urea nitrogen, free fatty acid and activities of GPT, GOT, LDH.
To assess the effects of water extracts in fruits of Omija (Schizandra chinensis Baillon) on alcohol metabolism, rats were orally administrated with alcohol (25% alcohol, 0.75g/200g B.W., 40% alcohol, 0.8g/200g B.W.). The level of metabolites and enzyme activities of the serum and liver were unchanged by the 25% ethanol or 40% ethanol treatment with acute orally administration. Blood alcohol level was markdely decreased by the treatment with water extracts in fruits of Omija. The serum level of Urea nitrogen, Free fatty acid, GPT and LDH were tended to decreased, level of GOT was unchanged. Contents of hepatic microsomal protein, glycogen, pyruvate in the liver were increased by water extracts in fruits of Omija. In conclusion, the present study clearly demonstrates that water extract in fruits of Omija promotes the overall metabolism and detoxication of alcohol.
The effect of water extract in fruits of Omija (Schizandra chinensis Ballion) on liver function in expermental liver injuries induced by CCl4. The levels of GPT, GOT activities in serum were decreased apparently on the dosage of water extract in fruits of Omija correspond to raw Omija 1g compared to control group. The levels of Microsomal protein, glycogen, and pyruvate in liver and of Urea nitrogen, GPT, GOT, LDH in serum showed a trend toward restoration of normalization. No effective of levels of hepatic G6P DH activity and serum free fatty acid by water extract in fruits of Omija.
In order to study the mechanism of the parts of omiza (Schizandra chinensis baillon) on metabolism in normal rats, the metabolites and enzyme activities both in serum and liver were determined. The rats were treated with water extract of the parts of omiza and the results showed a significant decrease of GOT, Glucose (excepted for water extract of fruits), Urea nitrogen, and increase of LDH in serum. Free fatty acid level tended to decrease in serum of rats treated with water extracts of fruits and endocarps and increase in seeds extract treated group. Serum GPT level was unchanged. The level of hapatic metabolites and enzyme activity showed a significant increase, but Pyruvate level was not significantly decreased.
The compositions of total and free amino acids in parts of Omija were investigated. The most abundant amino acids in fruits, endocarps, and seeds were arginine (50.80%), lysine (14.37%), glutamic acid (14.22%), respectively. Since the amino acid scores of fruits, endocarps, and seeds were 9.4, 11.9, and 16.7, respectively, the limiting amino acid of each part were S-compound amino acids. In the composition of free amino acids, contents of lysine were highest one such as 51.78, 57.00 and 32.88% in fruits, endocarps and seeds, respectively. The contents of histidine from free amino acids were 23.62% in fruits, 22.37% in endocarps, and 26.41% in seeds.
This study was carried out to investigate the compositions of free sugars, lipids, and nonvolatile organic acids in parts of omija. The major components of free sugars in each part of omija were fructose and glucose. The contents of those were similar in fruits and endocarps, however, the content of glucose was 1.5 times as much as that of fructose in seeds. The content of lipids in endocarps was 2.4 times as much as that in seeds, and major composition of lipids was neutral lipid. In the contents of nonvolatile organic acids, the content of citric acid that content was 61 to 68% depend on each part of sample was highest among other components, and that of malic acid being 25 to 30% was followed. The contents of nonvolatile organic acids of water extract were 74.5, 55.9, and 69.2% as high as those of original sample in fruits, endocarps, and seeds, respectively. The content of oxalic acid in seeds was lower than that of it in original sample.
This study was carried out to comparison of the contents of general and mineral components between the original sample and water extract in each part of omija. The content of Carbohydrate was highest in endocarps, and that the crude protein and crude lipid in seeds. The contents of K and Mn in the fruits, endocarps, and seeds were all higher than those of the other cations. The content of K and Zn in endocarps were three to four times as much as those of seeds. and the content of Na, Ca, and Cu in endocarps were 1.5 to 1.75 times of seeds. Mineral contents by water extract in each part were ordered as K, Mg, Ca, and Fe. As the percentage of each ion in water extract on the basis of original sample, Fe was the highest ratio of behavior, and Mn was lowest.
Background: Various Schisandra chinensis (SC) varieties grow in diverse regions in Korea. However, there is no valid scientific evidence of these varieties. This study aimed to select the excellent resources in terms of the growth characteristics, antioxidant activities, and analysis of the active compounds of the SC collection.
Method and Results: In total, 154 resources of SC were collected from various regions of Korea. The growth characteristics were measured by the number of fruit bunches, fruit number, and weight of 100 fruits. The antioxidant activities were investigated by analyzing the total flavonoid and total polyphenol contents and the radical scavenging activity of DPPH and ABTS. Schizandrin A, schizandrin c, gomisin a, and gomisin N were analyzed by HPLC. Each resource showed different growth characteristics. Among the antioxidative effects, the highest 20 resources showed high antioxidant activities in selected 29 resources. Analysis of the SC lignan index showed that all resources contained more than 1.16% of active compounds.
Conclusions: All of the selected 29 SC resources were shown to have excellent growth characteristics, antioxidant activities, and bioactive compound richness. Especially, SC-004, SC-007, and SC-154 showed the best growth characteristics, and SC-22, SC-40, and SC-45 showed the best antioxidant activities and bioactive compound richness.
Background : There are studies on the planting distance, sowing periods, and over wintering method of Saururus chinesis, but lesson the necessary soil moisture content for rhizome growth. This study examines the effects of soil moisture content on the growth of Saururus chinesis.
Method and Results : The radicles of Saururus chinesis were harvested in the beginning of March and cut into three joints. The planting densities were determined as 40 ㎝ × 10 ㎝, 40 ㎝ × 20 ㎝ and 40 ㎝ × 30 ㎝, and the soil moisture content was adjusted through continuous flooding treatment, wetting (0 ~ -10 kPa), and field moisture capacity (-20 ~ -50 kPa). As a result of investigating the ground growth of Saururus chinesis, the growth through continuous flooding was best with the planting distance of 40 ㎝ × 20 ㎝ that yielded a plant height of 7.4 ㎝, stem diameter of 5.2 ㎜, and leaf number of 5.5. The growth through field capacity (-20 ~ -50 kPa) was poorest at the planting distance of 40 ㎝ ×10 ㎝. The transpiration rate, indicating the breathing of leaves, was highest at 1.4 s ㎝-1 through continuous flooding at 40 ㎝ × 30 ㎝, and decreased to 0.5 s ㎝-1 with the field capacity of (-20 ~ -50 kPa) 40 ㎝ × 20 ㎝. The investigation on the leaves showed that the leaf weight was heaviest at 23.1 g/plant through continuous flooding of 40 ㎝ × 30 ㎝ that also showed a wider leaf area and rich chlorophyll. At continuous flooding of 40 × 10 ㎝, the leaf weight was as light as 9.5 g/plant, showing no consistency among treatments. The investigation on the underground growth showed the best results through continuous flooding with a planting distance of 40 × 10 ㎝ where the root length was 50.7 ㎝, root diameter 6.7 ㎜, and fresh root weight of 45.3 g/plant, which decreased to 24.4 g/plant with field capacity (-20 ~ -50 kPa). The investigation on the polyphenol content as a functional component showed the richest content in the leaf of the plant at 752.5 ㎎/100g through continuous flooding, and lowest at 661.0 ㎎/100g with field capacity. With the field capacity (-20 ~ -50 kPa) it was the highest at 262.0 ㎎/100g.
Conclusion : It was the most advantageous for mass Saururus chinensis radical production with continuous flooding treatment for soil moisture and a planting distance of 40 × 10 ㎝.
Backgoound : Various varieties of Schisandra chinensis (Omija) are grown in various regions of Korea. However, there is no study on varieties with excellent efficacy for each variety. Therefore, in this study, it is aimed to select the excellent lineage by analyzing the active compounds of Omija collection species
Methods and Results : 154 lineage of Omija was collected from Muju of Jeollabuk-do, Jangsu of Jeollabuk-do and Hoengseong of Gangwon-do. They were cultivated in test-research farm in Rural Development Administration at Eumseong of Chungcheongbuk-do and used as materials. In order to analyze the active compounds (Shizandrin A, Shizandrin C, Gomisin A, Gomisin N) in Omija, the HPLC method described in the Korean Pharmacopoeia (compounds of Omija indicator) was used. As a result of analysis of functional compounds, SC-003, SC-005, SC-013, SC-015, SC-019, SC-020, SC-022, SC-023, SC-040, SC-042, SC-045, SC-066, SC-069 and SC-072 were collected from Jangsu, Jeollabuk-do, SC-082 was collected from Hoengseong, Gangwon-do and SC-139 was collected from Muju, Jeollabuk-do showed higher contents of functional compounds than other collected species.
Conclusion : As demand for high income crop has increased, new cultivar breeding is required to produce high quality Schisandra chinensis (Omija). In this study, Shisandra A, Shizandrin C, Gomisin A and Gomisin N were analyzed as functional compounds of Omija. They can be used for new Omija breeding. Especially SC-003, SC-019, SC-022, SC-040, SC-045, SC-069 and SC-082 can be superior lineags with high functional compound contents.
Background : Korea ginseng root has been traditionally used as a tonic as it is stated to have the capacity to normalize body functions and strengthen systems that are caused by various stresses. But, white ginseng (WG) has lower antioxidant activity than other medicinal crops. Omija (Schisandra chinensis Baillon) has various physiological functionalities such as anti-cancer, anti-inflammatory, and antioxidant activities, which have the effective components of Omija are lignans (schizandrins and gomisins), and this components were contented mostly in seed part on Omija. Physiological characteristics of WG extracts were investigated by adding Omija to enhance functionality.
Methods and Results : WG extract were prepared by adding 0, 20, 40, 60, 80 and 100% of Omija to the weight of WG. Physiological characteristics of WG extracts were investigated DPPH radical scavenging activity, FRAP, and nitrite scavenging activity. As the amount of Omija added increased, DPPH radical scavenging activity of WG extract increased proportionally. IC50 of 10 times water extracts were 0.455, 0.028 and 0.041 ml/ml on WG (100WG), WG added 50% Omija (50OM50WG), and Omija (100OM0WG), respectively. On the other hand, FRAP of extracts decreased slightly with increasing amount of Omija. Nitrite scavenging activity of Omija extract were significantly more active than WG extract, exhibited to 88.89% and 72.65% on WG extract added with 40% Omija (40OM60WG) and non added (100WG), respectively, pH 1.2. and then, to 33.45% and 1.38% with 40OM60WG and 100WG extract, respectively.
Conclusion : From the above results, we may suggest that WG extracts by adding Omija increased the DPPH radical scavenging activity, nitrite scavenging activity and the preference degree on taste.
The amounts of free amino acids extracted from dried Gugija (Lycium chinensis Mill) were monitored under different extraction conditions. The response methodology was applied using the ethanol concentration (X1 0-80%) and extraction time (X2 1-5 h) as operational parameters with regard to various free amino acids (glycine, serine, alanine, threonine, proline, valine, methionine, isoleucine, leucine, tyrosine, tryptophan, phenylalanine, asparagine, lysine, arginine, histidine, carnosine, ornithine, aspartic acid, glutamic acid, phosphoserine, hydroxyproline, -γ amino-n-butyric acid, taurine, phosphoethanolamine, citrulline, β-alanine, β-amino-isobutyric acid, hydroxylysine, sarcocine, and ethanolamine) and their sum. Under the optimum conditions, the free amino acid contents were asparagine 186.28, phosphoethanolamine 166.21, proline 46.51, alanine 43.35, aspartic acid 27.23, hydroxyproline 21.17, glutamic acid 16.53, taurine 16.24, arginine 14.66, serine 11.65, γ-amino-n-butyric acid 10.82, leucine 10.52, tryptophan 8.75, ethanolamine 8.49, and total free amino acid 629 mg/100 g. The coefficients of determination (R2) of the models for methionine, arginine, histidine, carnosine, ornithine, aspartic acid, phosphoserine and γ-amino-n-butyric acid were within 0.9052-0.9810 (p<0.01-0.05). For the total free amino acids, the R2 of the model was 0.8608 (p<0.1), the extraction yield ranged from 282 to 641 mg/100 g depending on the extraction conditions and was the highest when extracted for 5 h with 20% ethanol.