• Title/Summary/Keyword: Ginseng part

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Histological Characteristics of Normal and Inferior Parts in Korean Red Ginseng (정상홍삼과 불량홍삼의 조직학적 특성)

  • 이종원;김천석;채순용;양재원;도재호
    • Journal of Ginseng Research
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    • v.25 no.2
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    • pp.82-88
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    • 2001
  • This study was carried out to investigate a point of difference between normal and inferior Korean red ginseng (Naeback red ginseng = red ginseng with white part of clear boundary in phloem and/or xylem of ginseng body, saengnaeback red ginseng red ginseng with white part of indistinct boundary). White part with clear or indistinct boundary in center of ginseng body was observed in inferior red ginseng (naeback and saengnaeback red ginseng), and the differences in the internal color intensity was also found with naked eye. In hunter color values of normal and inferior parts of red ginseng in accordance with particle size, L value was increased with a diminishment in particle size, while a and b value were decreased. Absorbance at visible spectrum did not differ from water and 70% ethanol extract from normal and inferior parts of red ginseng, but absorbance in UV spectrum of extract from naeback part showed higher than those of normal and saengnaeback part. In comparison of intrastructure by electron microscope, the horizontal and vertical section of cortex and pith layer from normal part showed the very dense state, but small holes were found in naeback part of red ginseng by naked eye and electron microscope. The specific surface area of normal, naeback and saengnaeback part appeared 3.02, 3.33 and 6.55 ㎡/g, respectively. From above results, we consider saengnaeback red ginseng is red ginseng in the intermediate process which normal red ginseng changes to naeback red ginseng.

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Biochemical and Histological Charaeteristics of Inferior Red Ginseng (불량홍삼(내백삼)의 생화학적 및 조직학적 특성)

  • Do, Jae-Ho;Kim, Sang-Dal;Seong, Hyeon-Sun
    • Journal of Ginseng Research
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    • v.9 no.2
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    • pp.256-263
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    • 1985
  • In order to investigate the inferior factor of red ginseng quality, the contents of various chemical components, physico-chemical properties and arrangement state of ginseng cells were observed. Contents of total reducing sugar, reducing sugar, crude protein, crude fibre and specific gravity of inside white part of red ginseng were less than those of normal part. But differences in content of crude saponin, HPLC pattern of ginsenosides and reducing ability for DP P H(1,1-dipheny 1-2-picrylhydrazyl) between normal and inside white part of red ginseng were not found. The optical density of 1 water extract of normal part of red ginseng did not differ from that of inside white 1 part of red ginseng, but the visible and UV absorbance of acid hydrolyzate of normal red ginseng showed higher than those of inside white part of red ginseng. The differences in the internal color and tissue of normal and inside white part of red ginseng were easily found with naked eye, and by the microscopic fractography, the orangement state of ginseng cell in the inside white part of red ginseng was less dense than that in normal red ginseng.

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Chemical Characteristics of Normal and Inferior Parts in Korean Red Ginseng (정상홍삼과 불량홍삼의 화학적 특성)

  • 김천석;이종원;도재호
    • Journal of Ginseng Research
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    • v.25 no.2
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    • pp.89-93
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    • 2001
  • This study was carried out to investigate a point of difference in chemical characteristics between normal and inferior Korean red ginseng (Naeback red ginseng=red ginseng with white part of clear boundary in phloem and/or xylem of ginseng body, saengnaeback red ginseng=red ginseng with white part of indistinct boundary). content of total sugar as chemical components of naeback and saengnaeback part from Korean red ginseng were less than that of normal part, and content of reducing sugar in normal and saengnaebakc part showed higher than that of naeback part. But differences in content of total phenolic compounds was not found. The content of crude saponin in normal part was highest, amounts of ginsneoside were about same. The content of constituent amino acid in normal part was about 2 times as compared with those in naeback and saengnaeback part in red ginseng. Among the various amino acids, the contents of arginine, glutamic acid, aspartic acid, leucine and alanine of normal and naeback part were higher than others, but in saengnaeback proline, glutamic acid, aspartic acid, threonin and glycine etc. were higher. In the total amount of free amino acids, those in normal, naeback and saengnaeback part were about the same one another, and arginine, glutamic acid and aspartic acid were major free amino acids.

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Isolation of Polypeptide Fractions from Different Park offered Ginseng

  • Larina, Ludmila;Muranova, T.;Cho, B.G.;Park, H.
    • Proceedings of the Ginseng society Conference
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    • 1998.06a
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    • pp.160-167
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    • 1998
  • Chemical studies of nitrogen compounds of Panax ginseng seem relatively rare, Probably due to the isolation difficulties, subsequently the investigations of biological activities are little. The experimental conditions were established for highly complete extraction of peptides (basic, acidic and neutral) from Panax ginseng. This task was achieved by applying the follow isolation procedure: 1 , the sequential extraction with water, 0.1% TFA in 20% acetonitril and buffer pH 6.5 (water-pyridine-acetic acid 100:3:900) : 2, fractionation by ultrafiltration : 3, n-butanol extraction 4, cation- and anion-exchange chromatography : 5, chromato-electrophoresis. The comparison of red ginseng (xylem Sl pith part) and red ginseng inside white (xylem Sc pith part) was also provided. To analyze the peptide mixture the chromato-electrophoresis method of separation was applied. Optimal conditions for peptides mapping of sample were explored. Our experiments revealed the quantitative difference of peptide between xylem & pith and phloem & cortex part. We have also found the qualitative difference in the composition of polypeptides between normal red ginseng (xylem Sc pith part) and red ginseng inside-white (xylem St pith part)

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Ultrastructure of Normal and Inside White Part in Korea Red Ginseng (홍삼의 정상 및 내백부의 미세구조)

  • Park, Hoon;Cho, Byung-Goo;Lee, Seong-Jun
    • Journal of Ginseng Research
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    • v.12 no.2
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    • pp.153-157
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    • 1988
  • Ultrastructure of inside white part was compared with normal part in Korea Red ginseng by scanning electron microscope. The inside white part was in number and smaller inside of starch particle than those in the normal. The large membranous components in the inside white part seemed to be thinner than those in the normal. Thin membranous components may be related to lower protein content as previously reported. Starch particles in red ginseng were flat and amorphous.

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Studies on Therapeutic range, Symptom, Pathology, and composition of Ginseng Radix -main blended Prescriptions from Donguibogam (동의보감(東醫寶鑑)에 수록(收錄)된 인삼(人蔘)이 주약(主藥)으로 배오(配伍)된 방제(方劑)의 활용(活用)범위, 병증, 주치(主治), 병리(病理) 및 구성내용(構成內容) 조사(調査))

  • Cho, Dae-Yeon;Jeong, Jong-Kil;Yun, Young-Gab
    • Herbal Formula Science
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    • v.9 no.1
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    • pp.35-82
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    • 2001
  • In the Encyclopedia Medica Koreana(Dongeuibogam), I have researched 245 prescriptions in which Panax Ginseng plays an important role. And I have got the following results. The healing scope and frequency of ginseng-mainly-included prescriptions are Child Part 29(11.83%), Violent Cough Part 23(9.38%), Sick-by-Cold Part 21(8.57%), Oncosis Part 16(6.53%), Overwork Part 14(5.71%), Gynecologic Part 14(5.71%), Internal Part 13(5.3%), Apoplexy Part 11(4.48%), Mind Part 10(4.08%) and Fecal Part 10(4.08%) prescriptions. And also each of Nausea Part, Anger Part, and Spirit parts has the same 5 (2.04%) prescriptions. And each of Qi Part, Diabetes Meatus Part, Malaria Part, and Humoral Part has 4(1.63%) prescriptions. And each of Foot Part, Choleraic Part, Genital Part, Blood Part, and Voice Part has 3 (1.2%). All of these prescriptions cover 88.88%. And besides listed parts above, Panax Ginseng is all used in 48 Parts: Body-Mind Part. Mouth-Tongue Part, Breast Part, Muscle Part, Swelling Part, Urine Part, Epidermis Part, Heat Part, Anus Part, Stomach Part, Eye Part, Laryngopharynx Part. Uterus Part" Heavy Stomach Part, Head Part, Pulse Part, Hair Part, Navel Part, Emetic Part, Costal Part, Edema Part, Vomiting Part, Superstitious Part, and Cardiac Part, etc. Of the prescriptions in which Panax Ginseng plays an important role, the most representative diseases, which more than 86.8% prescriptions cure, are shock, numbness from cold, Taeeum disease, oncosis, overwork, sick from eating, numbness of extremities, diarrhea, tachycardia, forgetfulness, nausea, heat from kidney, nocturnal emission, short breath, diabetes meatus, malaria, sweating, sweating overnight, beriberi, cholera, insomnia from enervation, sialitis, navel pain, hemorrhage, and loss of voice. The pathology of the prescriptions in which Panax Ginseng plays an important role is divided into the organ problems, six natural factors, seven extreme feelings, unbalanced humoral status, overwork, and, unbalance of qi and blood. Spleen, heart, and uterus is the main cause of organ problems; wind and cold are the main cause of six natural factors; heavy humors are the main cause of unbalanced humoral status; the stasis of seven feelings are the main cause of seven extreme feelings; the lack of stamina and overwork are the main cause of the overwork; the lack of qi, the lack of blood, and, the lack of qi and blood are the main cause of the unbalance of qi and blood. After I have researched the contents of the prescriptions in which Panax Ginseng plays an important role, I could understand the addition of the different prescriptions, combination of medicines, and the role of medicine groups associated with Panax Ginseng. So from now on, the results I have got could be used as the data which show the theoretical basis on the prescriptions.

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

  • Park, Hoon;Lee, Myong-Gu;Lee, Jong-Ryool
    • Journal of Ginseng Research
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    • v.10 no.2
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    • pp.180-186
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    • 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.

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Quality Evaluation of Fresh ginseng by Soft X-ray and iodine Test. (연X선 및 요드반응에 의한 수삼의 품질평가)

  • Park, Hoon;Cho, Byung-Goo;Lee, Mee-Kyung
    • Journal of Ginseng Research
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    • v.8 no.2
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    • pp.167-171
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    • 1984
  • Soft X-ray is useful to identify the quality of fresh ginseng causing the inside cavity or white pan of red ginseng. The portion of low mass density identified by the difference in absorption of soft X-ray showed lower dry matter density and less or no response to iodine test indicating less accumulation or excess consumption of starch. The inside white part of red ginseng absorbed less X-ray than the normal part did. Probability for identification of the inside cavity or white at fresh ginseng was rather high (80-90%) in screen observation than f'3m reading and seemed to be increased further by using the developed screen and with training. The inside white of red ginseng appeared to be due to starch deficiency. Dry matter density appeared to be better than fresh weight density for the quality criterion.

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Comparison of Malonyl Ginsenoside Contents in Parts of Korean Ginseng (고려인삼의 부위별 Malonyl Ginsenoside 함량 비교 분석)

  • Park, Young Sik;Oh, Myeong Hwan;Lee, Hwan;Jung, Jong Tae;Jo, Yun Ho;Pyo, Mi Kyung
    • Korean Journal of Pharmacognosy
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    • v.48 no.1
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    • pp.82-87
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    • 2017
  • Malonyl ginsenoside content of the Panax ginseng C.A. Meyer 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. White ginseng was prepared by the freeze drying ($-70^{\circ}C$, 48 h) or air drying ($50^{\circ}C$, 48 h) methods form 4-year-old ginseng. Malonyl ginsenoside content of main, lateral, and fine root, and of the main root without skin and its skin was compared. Malonyl ginsenosides (m-Rb1, m-Rb2, m-Rc and m-Rd) content (58%, 19.17 mg/g) in total ginsenosides of air dried white ginseng was decreased about 4% compared to its content of freeze dried white ginseng (62%, 20.40 mg/g). Malonyl ginsenoside content was the highest in fine root, compared to the main or lateral root. Malonyl ginsenosides content in skin of main root was 20.08 mg/g, while its content of the main root without skin was 2.58 mg/g. These results are expected to help establishment of quality specification and processing process in Korean white ginseng.

Frequency and Distribution of Btomate in Korean Ginseng Plant (Pann ginseng C.A. Meyer) (인삼의 기공수분포에 관하여)

  • Lee, Jong-Cheol;Cheon, Seong-Gi;Kim, Yo-Tae
    • Journal of Ginseng Research
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    • v.4 no.1
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    • pp.49-54
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    • 1980
  • This investigation were carrion out to know the frequency, size and distribution of stomata in Korean ginseng, acanthopanax and codonopsis. The results are as follows; 1. Stomatal frequency in ginseng leaf was remarkably less than those of acanthopanax and codonopsis leaf, but size of stomata in ginseng leaf was larger than those of acanthopanax and codonopsis leaf. 2. Stomatal frequency of one year old ginseng plant was higher than those of the older. Two to five years old ginseng plants were not differed in frequency and size of stomata. 3. Frequency and size of stomata were higher and larger in red-berry variant in compare to yellow-berry variant. 4. Stomatal frequency in different leaf Position was not significantly different among those of middle leaf, first side leaf and second side leaf, but in decreasing order of middle Part, upper, lower part and edge in the same ginseng leaf. 5. Stomata was not seen in adaxial surface and petiole of leaf ginseng, acanthopanax and codonopsis. 6. Stomatal frequency was higher in ginseng plant grown under no$.$shading compared to shading, and that of ginseng plant in rear line was less than that of front line under the same shade roof.

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