• 제목/요약/키워드: Panax ginseng leaf

검색결과 255건 처리시간 0.04초

인삼의 광억제(Photoinhibition)에 대한 항산화제의 처리효과 (Effects of Antioxidants on the Photoinhibition in Panax ginseng C.A. Meyer)

  • 양덕조;김명원
    • Journal of Ginseng Research
    • /
    • 제17권3호
    • /
    • pp.232-235
    • /
    • 1993
  • We investigated the effect of antioxidants (ascorbate, glutathione, and sodium azide), which efEectively inhibited the chlorophyll bleaching of Panax ginseng CA Meyer under the high light intensity, treated by folilar wiping on the early stage of photosynthesis and transpiration of ginseng in the 5000 $\mu$mol photon.$m^{-2}$.$s^{-1}$. Ascorbate and glutathione, endogenous antioxidant, completely recovered ginseng from the photoinhibition, but sodium azide, synthetic quencher, showed negative effect. We assumed that endogenous antioxidants could be available to the protection of the leaf-burning phenomenon of ginseng.

  • PDF

Stem-leaves of Panax as a rich and sustainable source of less-polar ginsenosides: comparison of ginsenosides from Panax ginseng, American ginseng and Panax notoginseng prepared by heating and acid treatment

  • Zhang, Fengxiang;Tang, Shaojian;Zhao, Lei;Yang, Xiushi;Yao, Yang;Hou, Zhaohua;Xue, Peng
    • Journal of Ginseng Research
    • /
    • 제45권1호
    • /
    • pp.163-175
    • /
    • 2021
  • Background: Ginsenosides, which have strong biological activities, can be divided into polar or less-polar ginsenosides. Methods: This study evaluated the phytochemical diversity of the saponins in Panax ginseng (PG) root, American ginseng (AG) root, and Panax notoginseng (NG) root; the stem-leaves from Panax ginseng (SPG) root, American ginseng (SAG) root, and Panax notoginseng (SNG) root as well as the saponins obtained following heating and acidification [transformed Panax ginseng (TPG), transformed American ginseng (TAG), transformed Panax notoginseng (TNG), transformed stem-leaves from Panax ginseng (TSPG), transformed stem-leaves from American ginseng (TSAG), and transformed stem-leaves from Panax notoginseng (TSNG)]. The diversity was determined through the simultaneous quantification of the 16 major ginsenosides. Results: The content of ginsenosides in NG was found to be higher than those in AG and PG, and the content in SPG was greater than those in SNG and SAG. After transformation, the contents of polar ginsenosides in the raw saponins decreased, and contents of less-polar compounds increased. TNG had the highest levels of ginsenosides, which is consistent with the transformation of ginseng root. The contents of saponins in the stem-leaves were higher than those in the roots. The transformation rate of SNG was higher than those of the other samples, and the loss ratios of total ginsenosides from NG (6%) and SNG (4%) were the lowest among the tested materials. In addition to the conversion temperature, time, and pH, the crude protein content also affects the conversion to rare saponins. The proteins in Panax notoginseng allowed the highest conversion rate. Conclusion: Thus, the industrial preparation of less-polar ginsenosides from SNG is more efficient and cheaper.

인삼 주요형질의 변이계수 (Coefficient of Variability of Agronomic Characters in Panax ginseng C.A. Meyer)

  • 안상득;최광태
    • Journal of Ginseng Research
    • /
    • 제9권1호
    • /
    • pp.9-14
    • /
    • 1985
  • The aerial parts, stem diameter, stem length, Petiole length, leaf length and leaf width were investigated to estimate coefficient of variability in ginseng at 2 to 4 years grown under the conventional and improved shadings. C.V values of characters such as stem length, petiole length, leaf length and leaf width were decreased with increasing the plant age, while that of steam diameter was increased. C.V. values of aerial part characters were higher in conventional shading than in improved shading, and the variance of c.v. was not significant when above 20 plants were investigated.

  • PDF

Morphological Characteristics of Ginseng Leaves in High-Temperature Injury Resistant and Susceptible Lines of Panax ginseng Meyer

  • Lee, Joon-Soo;Lee, Kyung-Hwan;Lee, Sung-Sik;Kim, Eun-Soo;Ahn, In-Ok;In, Jun-Gyo
    • Journal of Ginseng Research
    • /
    • 제35권4호
    • /
    • pp.449-456
    • /
    • 2011
  • Plant leaf cuticle is related to the prevention of moisture loss, transpiration, and diffusion of light reflection. The purpose of this study was to examine the morphological characteristics of ginseng leaves in ginseng plants resistant and susceptible to hightemperature injury (HTI) to be related with the leaf-burning. For the HTI resistant lines Yunpoong, high-temperature injury resistance (HTIR) 1, HTIR 2, and HTIR 3, and the HTI-susceptible line Chunpoong, the cuticle densities were 53.0%, 46.2%, 44.9%, 48.0%, and 17.0%; the adaxial leaf cuticle layers were 141.3, 119.7, 119.7, 159.4, and 85.0 nm in thickness; the abaxial leaf cuticle layers were 153.6, 165.8, 157.9, 199.6, and 119.4 nm in thickness; and the stomtal lengths were 21.7, 32.4, 29.4, 30.9, and $21.8{\mu}m$, respectively. All of these aspects suggest that HTI resistant lines have higher cuticle density, thickicker adaxial and abaxial leaf cuticle layers, and longer of stomta length than the HTI-susceptible line, protecting leaves from moisture loss and excessive transpiration under high temperatures to be resistant against the leaf-burning.

인삼 논재배에서 석회 시용에 따른 갈반형 황증 발생 억제 효과 (Effect of Application Level of Calcium Hydroxide on Brown-Leaf Symptom and Root Yield of Panax ginseng Cultivated in Paddy Soil)

  • 이성우;박경훈;이승호;장인복;;김기홍
    • 한국약용작물학회지
    • /
    • 제23권2호
    • /
    • pp.150-154
    • /
    • 2015
  • Physiological disorders such as symptoms in leaf colored with brown spots are so many occurred in ginseng garden cultivated with paddy soil. This study was carried out to inhibit the symptoms of brown-colored leaf in 3-year-old ginseng by fertilizing calcium hydroxide [$Ca(OH)_2$] of 100 ~ 400 kg per 10a on paddy soil before transplant of seedling. Soil pH was rapidly increased, while Fe was decreased in soil by the increase of application level of calcium hydroxide. Soil pH was increased from 4.53 to 6.18 when calcium hydroxide was fertilized at level of 100kg per 10a. The content of Fe in ginseng leaf was decreased more than the control by fertilizing calcium hydroxide in soil. Ratio of brown-colored leaf and plant height and leaf area were decreased by the increase of calcium hydroxide. Ratio of survived root and yield of root showed the peak at the application level of 100 kg per 10a, and both of them were gradually decreased by the increase of calcium hydroxide. The decrease of missing plant rate above the application level of 200 kg per 10a had a negative effect on the decrease of yield of root.

Complete Biotransformation of Protopanaxatriol-Type Ginsenosides in Panax ginseng Leaf Extract to Aglycon Protopanaxatriol by β-Glycosidases from Dictyoglomus turgidum and Pyrococcus furiosus

  • Yang, Eun-Joo;Shin, Kyung-Chul;Lee, Dae Young;Oh, Deok-Kun
    • Journal of Microbiology and Biotechnology
    • /
    • 제28권2호
    • /
    • pp.255-261
    • /
    • 2018
  • Aglycon protopanaxatriol (APPT) has valuable pharmacological effects such as memory enhancement and tumor inhibition. ${\beta}$-Glycosidase from the hyperthermophilic bacterium Dictyoglomus turgidum (DT-bgl) hydrolyzes the glucose residues linked to APPT, but not other glycoside residues. ${\beta}$-Glycosidase from the hyperthermophilic bacterium Pyrococcus furiosus (PF-bgl) hydrolyzes the outer sugar at C-6 but not the inner glucose at C-6 or the glucose at C-20. Thus, the combined use of DT-bgl and PF-bgl is expected to increase the biotransformation of PPT-type ginsenosides to APPT. We optimized the ratio of PF-bgl to DT-bgl, the concentrations of substrate and enzyme, and the reaction time to increase the biotransformation of ginsenoside Re and PPT-type ginsenosides in Panax ginseng leaf extract to APPT. DT-bgl combined with PF-bgl converted 1.0 mg/ml PPT-type ginsenosides in ginseng leaf extract to 0.58 mg/ml APPT without other ginsenosides, with a molar conversion of 100%. We achieved the complete biotransformation of ginsenoside Re and PPT-type ginsenosides in ginseng leaf extract to APPT by the combined use of two ${\beta}$-glycosidases, suggesting that discarded ginseng leaves can be used as a source of the valuable ginsenoside APPT. To the best of our knowledge, this is the first quantitative production of APPT using ginsenoside Re, and we report the highest concentration and productivity of APPT from ginseng extract to date.

인삼엽요병에서 효소활성도의 변화 (Study on the Enzyme Activity in Leaf-Burning Disease of Panax ginseng C.A. Meyer)

  • 양덕조;김명원
    • Journal of Ginseng Research
    • /
    • 제13권1호
    • /
    • pp.92-97
    • /
    • 1989
  • 인삼엽을 강광(100 KLuw) 및 고온($45^{\circ}C$, 암상태)에 처리하여 효소(glucose-6-phosphate dehydrogenase, acid phosphatase, catalase, peroxidase)의 활성도를 조사한 결과 두 처리구에서 공히 감소하는 경향이었으나, 특기 강광에서 활성도가 현저히 감소하였다. 이와 같은 활성도 감소는 효소의 thermal stabilities나 coagulation 등과 같은 광에 의한 2차적인 엽온상승 효과에 따른 inactivation이 아니며, proteolytic activity 증가로 인한 효소단백질의 함량감소로 확인되었다. 인삼엽에서 proteolytic activity가 강광에 의해 급속히 증가하는 것으로 보아 정상엽(normal leaf)에 inactive 상태로 내재(compartmentation)되어 있는 proteinase가 타 식물에 비해 많은 것으로 사료된다. 또한 chlorphyll bleaching과 효소의 inactivation을 유발시킬 수 있는 superoxide radical(${O_2}^{-}$)의 광화학적 생성율이 비교식물(Solanum nigrum)보다 높게 나타나고 crude saponin이 superoxide의 생성율을 촉진하는 것으로 보아 superoxide에 의한 pigment system의 광산화율이 타 식물에 비해 높을 것으로 사료된다.

  • PDF

지상부 노화별 인삼의 엽과 근의 광합성 및 호흡 (Photosynthesis and Respiration of Ginseng Leaf and Root in Relation to Senescence of Aerial Part)

  • 박훈;이명구;이종률
    • Journal of Ginseng Research
    • /
    • 제10권2호
    • /
    • pp.180-186
    • /
    • 1986
  • Photosynthesis and respiration of leaf and root of field grown Panax ginseng were investigated according to aerial part sensecence. No apparent photosynthesis activity was detected in senescenced leaf(less than 0.7mg total chlorophyll/g FW) and leaf dark respiration was consistent relation with senescence. Leaf respiratory Q$_{10}$ consistently increased with senscence. Root respiration and Q$_{10}$ tended to decrease with aerial part senescence only in the range of optimum temperature of leaf growth. Apparent photosynthesis or respiration of leaf was negatively or positively correlated, respectively with the increase of air temperature. Root respiration with temperature was well accordance with Arrhenius plot which was not consistent with aerial part senescence. Accelerated senescence may be recommendable for better root yield unless any reserve in stem or leaves contributes to root through translocation.

  • PDF

가능성 식품으로의 활용을 위한 한약자원에 관한 연구 -인삼잎과 줄기 혼합 추출액의 항피로 효과 및 안전성 평가- (Study of Medicinal Herbs for Applications in Functional Foods -Antifatigue Effects and Safety Evaluation of Leaf and Stem Extract of the Panax Ginseng-)

  • 한종현;박성혜
    • 동의생리병리학회지
    • /
    • 제18권4호
    • /
    • pp.1134-1139
    • /
    • 2004
  • This study was conducted to investigate the application possibility of leaf and stem extract(LSE) from the mixture of leaf and stem of ginseng radix(Panax Ginseng CA Meyer). This study measured antifatigue effects by rota-rod test and swimming test. Also we examined the cell toxicity in normal liver and kidney cells, and acute toxicity in mice. Dropping times of LSE treated group decreased about 39-83% compared to the control group according to supplementation intake levels. Swimming time in LSE treated group increased compared to the control group at short and long supplementation. Negative effects were not found from the results of the cell toxicity. Also acute toxicity not shown. These results imply that the leaf and stem of ginseng radix could be used as possible food resources and functional food material and feed stuff.

인삼근중 생육조절제의 계절변화 (Seasonal Change of Growth Regulator Activity in Panax ginseng Root)

  • Hoon Park;Kab Sig Kim;Chong Hwa Lee
    • Journal of Ginseng Research
    • /
    • 제10권2호
    • /
    • pp.187-192
    • /
    • 1986
  • Activity of endogenous growth regulator in 4th year Panax ginseng root was investigated by second leaf sheath test of rice seedling and paper chromatogram of a acidic fraction of methanol extract before (March 28) and after (May 9) emergence of root bud, at the late season (Sept.4) and after leaf fall (November 11). GA$_3$ and ABA were used as reference. According to paper and high performance liquid chromatography of samples and authentic growth regulators the presence of insole acetic acid (IAA), gibberellic acid (GA$_3$) and abscisic acid (cis and trans ABA) was confirmed. These three regulators appeared to consist of major system though the existence of other regulators could not be ruled out. IAA activity seemed little changed through out the seasons. GA activity decreased in the later stages while ABA activity increased.

  • PDF