저탄소 공정을 이용한 추출 기술인 초음파, 마이크로파 및 초고압 추출 공정기술의 이산화탄소 배출량(TCO2)과 얻어진 저분자 진세노사이드 총량의 상관관계를 비교하였다. 기존의 공정인 열수 추출 공정의 TCO2 배출량은 약 0.4 TCO2로 나타났다. 마이크로파 추출 공정의 경우 0.1437 Ton 당 CO2를 배출하는 것으로 확인 되었다. 또한, 초음파 추출 공정의 경우 0.0862 Ton 당 CO2를 배출하는 것을 확인 하였으며, 초고압 추출 공정의 경우 0.1014 Ton당 CO2를 배출하는 것을 확인 하였다. 저탄소 공정별 저분자 진세노사이드의 전환된 양을 측정한 결과 마이크로파 추출 공정의 경우 약 246.65% 정도 증진된 것을 확인 할 수 있었다. 또한, 초음파 공정의 약 275.71% 증진된 결과를 보였다. 초고압 추출 공정의 경우에는 약 295.21% 증진된 결과를 얻었다. 전체적으로 열수 추출 공정의 경우 얻어진 저분자 진세노사이드가 적은 반면 CO2 배출량이 매우 높은 것을 확인하였다. 반대로, 저탄소 추출 공정인 마이크로파, 초음파 및 초고압 공정의 경우 얻어진 저분자 진세노사이드의 양이 높으며, 방출되는 CO2의 양이 기존의 재래 방법보다 적은 것을 확인 하였다. 따라서, 저탄소 추출 공정인 마이크로파, 초음파, 초고압 추출 공정을 통해 인삼을 효과적으로 추출을 할 수 있으며, 친환경 저탄소 공법을 통해 CO2 발생량을 억제하여 경제적으로 천연물을 추출할 수 있을 것으로 사료된다.

초고압 처리가 홍삼의 진세노사이드 함량 및 항산화 활성에 미치는 영향에 대하여 조사하였다. 전통적 인 방법으로 제조한 일반 홍삼과 초고압 처리 홍삼의 조사포닌 함량은 각각 21.93 및 27.29 mg/g이었 고, 총 페놀성 화합물과 조사포닌 및 진세노사이드 함량은 초고압 처리에 의해 증가하였다. 일반 홍삼과 초고압 처리 홍삼에 가장 많이 함유되어 있는 진세노사이드는 Rb1으로 각각 14.10 mg/g과 17.71 mg/g 이었으며, 초고압 처리에 의하여 25.60% Rb1이 증가하였다. 또한 홍삼의 특징적인 유효 성분인 Rg3는 일반 홍삼에 비하여 초고압 처리한 홍삼에서 10.46% 증가하였다. DPPH 및 ABTS 라디칼 소거 활성을 측정한 결과, 열수 추출물의 농도가 증가함에 따라 DPPH 및 ABTS 라디칼 소거 활성이 증가하는 경향 을 보였으며 초고압 처리 홍삼이 일반 홍삼 열수 추출물에 비해 높은 라디칼 소거 활성을 보였다. 환원 력과 FRAP 활성도 분획물의 농도가 증가함에 따라 환원력과 FRAP 활성이 증가하는 경향을 보였으며, 일반 홍삼과 초고압 처리 홍삼 열수 추출물의 FRAP 활성은 농도 10 mg/mL일 때 각각 0.30 및 0.36의 흡광도를 보였다. 따라서 초고압 처리 홍삼 열수 추출물은 자유 라디칼에 의해 유발된 산화적 스트레스 를 효과적으로 방어할 수 있을 것으로 판단된다.

The aim of this study was to investigate the comparative growth characteristics and ginenoside contents of wild-simulated ginseng on different years (7 and 13-year-old) by monitoring soil properties of cultivation regions. Plant and soil samples were collected from 6 different cultivation regions. Soil organic matter (OM), total nitrogen (TN) and cation exchangeable capacity (CEC) were significantly higher in 13-year-old wild-simulated ginseng cultivation regions compared to 7-year-old wild-simulated ginseng cultivation regions. Growth characteristics of wild-simulated ginseng had shown significantly higher in 13-year-old wild-simulated ginseng compared to 7-year-old wild-simulated ginseng. Ginsenoside G-Rb1, Rb2, Rc, Rd, Re, Rf, Rg1 were significantly higher in 13-year-old wild-simulated ginseng than 7-year-old wild-simulated ginseng. According to the results of correlation analysis, soil OM, TN and CEC of the cultivated regions were positively correlated with the growth of wild-simulated ginseng. In addition, the root length of wild-simulated ginseng showed positive correlation with ginsenoside content. Hence, this study was able to investigate the correlation between growth and ginsenoside content of wild-simulated ginseng based on soil characteristics of the cultivation regions.

본 연구는 7년, 13년근 산양삼의 생육특성과 진세노사이드 (G) 함량 간의 상관관계를 구명하기 위하여 수행되었다. 6개소의 산양삼의 생육특성을 조사한 결과, 뇌두길이, 뿌리길이, 생중량, 단면적, 표면적, 부피에 있어 13년근 산양삼이 7년근 산양삼에 비하여 유의적으로 높은 것을 확인하였다. 진세노사이드 11종에 대한 함량은 G-Rb1, Rb2, Rc, Rd, Re, Rf, Rg1, Rg2 함량이 13년근 산양삼이 7년근 산양삼 보다 유의적으로 높은 수치를 확인하였다. 또한 산양삼과 인삼(재배삼) 진세노사이드 함량 을 비교한 결과, 13년 산양삼에서 G-Rb1, Rd, Re, Rf, Rg1이 4 년, 5년근 인삼(재배삼)에 비해 유의적으로 함량이 높은 것으로 확인되었다. 산양삼 연근별 생육특성과 진세노사이드 함량 간의 상관관계를 분석한 결과, G-Rb1, Rb2, Rc, Rd, Re, Rf, Rg1, Rg2 함량은 뇌두길이, 생중량, 단면적, 표면적, 부피와 유의정인 정의 상관관계를 보였으며, G-Rb1, Re, Rf, Rg2는 줄기직경 과 부의 상관관계를 확인하였다. 본 연구는 산양삼의 7년근과 13년근을 대상으로 생육특성과 진세노사이드 함량 상관관계를 구명함으로써 연근에 따른 품질규격 정립에 유용한 정보를 제공 할 것으로 판단된다.

Background : Ginseng (Panax ginseng C. A. meyer) is a medicinal herb which has been used for prevention and treatment of diseases in Korea, China and Japan for a long time. Ginseng is well known to have effects such as immunity enhancement, anticancer, antioxidative effect and blood circulation improvement. These pharmacological effects of ginseng have been reported to be due to various ginsenoside components. Recently, many studies have been actively conducted to identify the major components and functionalities of ginseng berry. Ginsenoside, a representative active ingredient of ginseng, is distributed in various parts of ginseng. However, contents of certain ingredient such as ginsenoside Re which have antidiabetic effect is higher in ginseng berry. This study was conducted to compare ginsenoside content and UV blocking effect according to the color of ginseng berry. Methods and Results : The ginseng berry extracts for the component analysis and UV-blocking effect test were obtained by harvesting the ginseng berry by color in 4-years-old ginseng cultivated, and then removing the seeds and extracting only the flesh of the ginseng berry and the peel with methanol. Ginsenosides analysis was carried out by dissolving 100 ㎎ of the extract in 2 ㎖ of methanol, filtering it with a 0.50 ㎛ filter and using it as a sample for HPLC analysis. Analysis of ginsenoside content showed that the total ginsenoside and ginsenoside Rb2 content of yellow ginseng berry were 23.9 and 2.9 ㎎/g, while those of red berry was 19.6 and 2.3 ㎎/g, respectively. The UV blocking effect of yellow ginseng berry was 17.4%, which was higher than that of red berry. Conclusion : The ginsenoside content and UV blocking effect of yellow ginseng berry were superior to those of red berry. These results suggested that yellow berry is more useful as cosmetic material for UV protection.

Background : This study aimed to investigate the effect of elevated temperature by climate change on growth and ginsenoside contents of Korean ginseng, which requires low temperature during growth period. Methods and Results : Yunpoong was transplanted in temperature gradient chamber (TGC) for high temperature treatment and then growth characteristics and ginsenoside contents were investigated by growth period. Stem length, petiole length, leaf length and leaf width were increased as the temperature was higher than Ambient Temperature (Amb), but stalk diameter was decreased and small petiole length, number of petiole and leaf were no significant difference. Root growth, whereas, including length diameter and weight were decreased as the temperature was higher than Amb. Compared with Amb, root length, diameter and weight were decreased by 19.6%, 22.4% and 41.5% at Amb+6, respectively. The higher the temperatures are associated with the more ginsenoside contents. Compared to Amb, total ginsenoside contents were increased by 68% and 78% at Amb+4℃ and Amb+6℃, respectively. Almost all contents of individual ginsenoside, with the exception of Rg1, made a significant difference. Conclusion : When temperatures rises during growth period, the growth of ginseng was decreased but, ginsenoside contents were increased.

Background : With the recent increase in the area of ginseng cultivation in greenhouses, demand for studies of proper cropping patterns in direct seedling of ginseng and varieties of cultivation are increasing, and the needs for clean production of quality ginseng in greenhouses are emerging in connection with the consumer demand for pesticide-free ginseng and the supply and demand of ginseng seedling for cultivation of young ginseng. Therefore, this study is to provide baseline data in improving of quality of ginseng cultivated in greenhouses by examining the contents of ginsenoside in ginseng cultivated in different cropping patterns and different varieties. Methods and Results : As a result of examining the contents of ginsenoside in 3-year old, direct seedling ginseng cultivated in greenhouses in different depths – 10 ㎝, 20 ㎝ and 30 ㎝ - and width – 90 ㎝, 100 ㎝, 110 ㎝ and 120 ㎝ - of furrows, the contents of ginsenoside showed little differences by the depths of furrow in the furrow width of 90 ㎝ but, the highest content of ginsenoside Rb1 was observed in the furrow width of 120 ㎝ and depth of 20 ㎝, while the ginsenoside contents were high in the furrow depth of 20 ㎝ and width of 100 ㎝ and 120 ㎝. The contents of ginsenoside in different varieties of direct seedling cultivation in greenhouses were greater in the following order: Geumgin > Geumsun > Chunpoong, while the contents of ginsenoside Rb1 were observed to be superior in Sunhyang, Gopoong and Geumseon and the contents of ginsenoside Rb2 were greater in the order of Geumgin > Guemsun >　Cheonpoong. Conclusion : Based on the results, the contents of ginsenoside in different cropping patterns of direct seedling cultivation in greenhouses were higher in lower depths of furrow - 10 ㎝ and 20 ㎝ - at furrow widths wider than 100 ㎝. The contents of ginsenoside in different varieties of direct seedling cultivation in greenhouses were higher in varieties of Geumjin, Geumsun and Chunpoong.

Background : Malonyl ginsenoside content of the Panax ginseng is known to account for 35% to 60% of total ginsenosides content. However, its distribution by ginseng part has not been studied. In this study, four kinds of malonyl ginsenosides were compared in Korean white ginseng part using the purified malonyl ginsenoside standards in our laboratory. Methods and Results : White ginseng was prepared by the air drying (50℃, 48h) or freeze drying (-70℃, 48h) methods form 4-year-old ginseng. Malonyl ginsenoside content in total ginsenosides were similar in air dried and freeze dried white ginseng, 58% and 62%, respectively. Therefore, malonyl ginsenoside contents in main, lateral, and fine root, and in the main root without skin and skin of main root prepared by freeze dried method were compared. Malonyl ginsenosides (m-Rb1, m-Rb2, m-Rc and m-Rd) and total ginsenosides (Rg1, Re, Rf, Rb1, Rc, Rb2, Rb3, Rd, m-Rb1, m-Rb2, m-Rc and m-Rd) were 6.75 and 14.15 mg/g in main root, 14.15 and 26.35 mg/g in lateral root, 46.95 and 84.15 mg/g in fine root. Malonyl ginsenoside contents in skin of main root was 20.08 mg/g, while its contents of the main root without skin was 2.58 mg/g. Conclusion : As a result, the parts each air drying the sample was confirmed that the ratio of the distribution of malonyl ginsenoside (main root : lateral : fine root = 18.7 : 11.1 : 16.2), and distribution ratio of main root, skin of main root, lateral, skin of lateral was found to be (12.2: 14.6 14.3: 3.7). Malonyl ginsenoside content was the highest in fine root, compared to the main or lateral root. Malonyl ginsenoside contents in skin of root was higher than those of the main root without skin. These results is expected to help establish an efficient extraction and standardization. Malonyl ginsenoside analysis of White ginseng using HPLC expects that the standardization process can be established.

This research carried out to figure out the effect of the green manure crop cultivated at a preparation field and the shading net on the growth, development, and quality of ginseng. Followings are results obtained from the research. Leaf width of ginseng under the shading net of a two-layered blue and two-layered black polythylene net (TBTBPN) was good at rye and hairy vetch cultured group. Leaf length of ginseng under the shading net of a threelayered blue and one-layered black polyethylene net (TBOBPN) was good at barley and hairy vetch cultured group. Meanwhile, leaf width was good at hairy vetch cultured group. Leaf length of ginseng under a blue polyethylene sheet (BPS) was good at a barley and barley + hairy vetch cultured group, but stem length was shorter compare to other shading net cultivations. Root weight of ginseng was good under the shading net of a two-layered blue and two-layered black polyethylene net (TBTBPN) at a rye and hairy vetch cultured group, and was good under the shading net of a three-layered blue and onelayered black polyethylene net (TBOBPN) at a barley + hairy vetch cultured group, but there was no significant difference under blackout screen according to manure crop varieties. Ratio of rusty root was 10.2% at the barley cultured group under the shading net of a two-layered blue and two-layered black polyethylene net (TBTBPN), and was 23.1% at hairy vetch cultured group under shading net of a three-layered blue and one-layered black polyethylene net (TBOBPN). Ratio of rusty root was the lowest at a rye cultured group regardless the shading nets. Content of the ginsenoside was the highest at the rye cultured group under the shading net of two-layered blue and two-layered black polyethylene net (TBTBPN), was the highest at the barley cultured group under the shading net of a three-layered blue and one-layered black polyethylene net (TBOBPN), and was the highest at the rye cultured group under the blackout screen.

This study investigated ginseng growth and ginsenoside contents after control a reserved ginseng cultivation land using various green manure crops for stable ginseng cultivation. Followings are results obtained from this research. After cultivate the green manure crops, microbial flora in soil was diversified, organic matter and total-N content increased, but salt content decreased. The highest output obtained from the wheat cultivated area among various green manure corps. Growth of shoot and root of two years old ginseng increased significantly at the green manure crop cultivated area. Specially, the wheat cultivated area was the most effective in growth. Also, the rate of the leaf discoloration at the aerial part and the rusty root at the root was the least at the wheat cultivation area. Meanwhile, the ginsenoside content was the most at the wheat cultivation area. Thus, the reserved ginseng cultivation land could be managed by cultivating wheat for effective ginseng growth.

This study was carried out to investigate change of ginsenoside contents in red and fresh ginseng according toroot part and age by hydrolysis. Neutral total ginsenoside contents by hydrolysis in 6-year main root and lateralroot were significantly increased than those by non-hydrolysis, as 41.6 and 32.8%, respectively. However, there wasno significant difference in red ginseng. In fresh ginseng, ginsenoside contents of the protopanaxatriol group such as Re, Rf,Rg₁, Rg₂, and Rh₁ were not significantly different, but Rb₁, Rb₂, Rb₃, Rc, and Rd showed significant difference. The increaserate of neutral total ginsenoside content by hydrolysis was higher in epidermis-cortex than stele. Also, the neutraltotal ginsenoside content was fine root>rhizome>lateral root>main root, respectively. While there was no tendencytowards the increase of ginsenoside by hydrolysis with the increase of root age in fine root and rhizome, there was significantdecrease in main root and lateral root.

This study was carried out to select optimal shade materials among four-layered polyethylene (PE) net (FLPN), aluminium-coated PE sheet (APSS), and blue PE sheet (BPSS) in condition of paddy field cultivated 6-year-old ginseng. The order of light-penetrated ratio and air temperature by shade materials was BPSS 〉 APSS 〉 FLPN. Light-penetrated ratio of BPSS before two fold shade was more 3 times and 2 times than that of FLPN and APSS, respectively. Air temperature of BPSS was also higher 1.6℃ and 1.4℃ than that of FLPN and APSS, respectively. BPSS showed good cultural environment because all of light-penetrated ratio and air temperature were become higher in spring and fall season but lower in summer season by additional shade with two-layered PE net. Survived-leaf ratio was highest in BPSS and lowest in FLPN causing a little water leak on a rainy day. Rusty-root ratio was also highest in FLPN because soil moisture content was increased by water leak. The order of root yield was BPSS 〉 APSS 〉 FLPN, and the cause of highest yield in BPSS was higher light-penetrated ratio during spring and fall season, higher survived-leaf ratio, and lower rusty-root ratio than that of APSS and FLPN. BPSS showed highest total ginsenoside content because of high light-penetrated ratio, blue light effect, and the difference in dry matter partitioning ratio such as low taproot ratio, and high lateral root ratio.