• Journal of Ginseng Research
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• v.26 no.3
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• pp.165-169
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• 2002

Experiments were carried out to select marker for rusty tolerance ginseng root using high rusty degree lines(HRL) and low rusty degree lines (LRL) in ginseng plant. A strong positive correlation was detected between degree of rusty-root in 4-year-root and that in 6-year-root. The contents of phenolic compounds among samples were not different in stele and branch & fine roots. The contents of phenolic compounds of rusty-roots was higher than that of healthy-roots in cortex, but those of high 겨sty degree lines (HRL) were not different compared with low rusty degree lines (LRL) in cortex using same rusty-degree samples. These suggest that phenolic compounds in cortex tissue were not adequate as a marker to select rusty tolerance ginseng roots. The contents of phenolic compounds of rusty-roots were higher than that of healthy-roots in epidermis, and those of HRL were higher than LRL in epidermis using same rusty-degree samples. These suggested that the contents of phenolic compounds in epidermis tissue might be a potent marker to select rusty tolerance ginseng roots.

• Journal of Ginseng Research
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• v.26 no.3
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• pp.159-164
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• 2002

Experiments were carried out to select the rusty tolerance lines in 39 inbred lines of ginseng cultivated in field, among them, 7 lines showed low degree of rusty root while 7 lines showed high degree of rusty root. In order to select marker elements among mineral nutrients for rusty ginseng root, we combined 5 groups as follows : Ⅰ (healthy-root of low rusty degree lines vs. rusty-root of high rusty degree lines), II (healthy-root vs. rusty-root in low rusty degree lines), Ⅲ (healthy-root vs. rusty-root in high rusty degree lines), Ⅳ (low rusty degree lines vs. high rusty degree lines in rusty-root), Ⅴ (low rusty degree lines vs. high rusty degree lines in healthy-root), and analyzed mineral nutrition at different root parts. The contents of mineral nutritions in stele and cortex were not different between healthy lines and rusty lines, and between healthy roots and rusty roots, but that in branch and fine roots were not a tendency. The contents of Fe, Na and Al in epidermis were higher in rusty-root than healthy-root. Also, the contents of Fe and Al in epidermis of high rusty degree lines (HRL) were higher than those of low rusty degree lines (LRL) in healthy-roots and rusty-roots, and so we suggest Fe and Al as markers to select low rusty degree ginseng lines.

• Journal of Ginseng Research
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• v.6 no.1
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• pp.75-83
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• 1982

In this study it was found that the enzyme activities of diseased ginseng contributed greatly on the development of its root-rot disease. The 4i sensed ginseng showed higher activities of $\alpha$-amylase, p amylase, invertase, catalase, and cellulase than those of fresh one. The increased enzyme activities of diseased ginseng were originated in those from infected pathogens, which showed a proportional relationship between enzyme activities and root-rot power of them. The increases of enzyme activities during incubation of inoculated ginseng could be considerably depressed by controlling culture environments as to temperature below 4$^{\circ}C$, pH 8-9, and relative humidity about 60%, Some metal ions and organic reagents also inhibited the enzyme activities of diseased ginseng. But their inhibitory effects were not so great that they might be used to protect the disease.

• Journal of Ginseng Research
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• v.6 no.2
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• pp.162-167
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• 1982

Calli and leaflets of ginseng (Panax ginseng C.A. Meyer) were cultured on 1/2MS media supplement. with kinetin, 2 iP, NAA, 2,4-D and IBA to assess their capacity to regenerate embryoids and organs. Root calli produced numerous embryoids and shoots in 1/2MS medium supplemented with 2 mg/l NAA and 2mg/s 2iP, and the combination of 2 iP and NAA was more effective than the combination of kinetin and NAA in induction of embryoid and shoot from root calli. Culture of leaflet in the medium supplemented with IBA resulted in profuse root regeneration.

• Korean Journal of Microbiology
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• v.13 no.4
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• pp.143-156
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• 1975

A rotting bacterium was isolated from decayed root of ginseng (Panax ginseng Meyer), cultured purely, and its pathogenicity was confirmed by reinoculation test. The strain causing ginseng root rot was identified as Pseudomonas fluoresens biotype II. The strain was somewhat different from P.marginalis and P.talaasii, considering the number of flagella, pathotype and ability of indole production. The strain did not exhibit pathogenicity to other plants tested, such as red kidney bean(Phasolus vulgaris L.), soy bean (Glycine max Merr.), cucumber (Cucumis sativus L.) lettuce (Lactuca sativa L.) and cowpea bean (Vigna sinensis Savi.).

• Journal of Ginseng Research
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• v.13 no.1
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• pp.14-18
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• 1989

The graminicides fluazifop-p-butyl and sethoxydim effectively controlled annual grass weeds in 1,2 and year old ginseng crops during a 2 year study. Ginseng plants in the graminicide treated plots showed an early senescence of the shoots ; and at harvest the average root weight (g/root) and yield (kg/m) were slightly lower in these plants than in the untreated check plots. Roots of the graminicide treated plots remained viable to regenerate shoots. The greenhouse study indicated that shoot growth and seed development in ginseng plants were more sensitive to the graminicide treatment than the roots.

• Proceedings of the Ginseng society Conference
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• 1990.06a
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• pp.175-189
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• 1990

Nitrogen compounds of Panax ginseng and their biological activities in plant and animal were reviewed. Major nitrogen compounds found in P. ginseng are free amino acids. Water solilble proteins, indouble proteins and peptides. Minor nitrogen compounds are dencichine. Glycolyroteins, amines, alkaloides, methoxy or alkyl pyrazine derivatives, free nucleosides and nucleic acid bases. 4-methyl-i-thiazoltethanol and pyroglutamic acid the contents of total nitrogen and protein in root Increased until 13 years old which was the highest age tinder investigation. Soluble protein content increased with the root weight and was higher in xylem pith than cortex-epidermis indicating the close relation with root growth. Arginine, which covered 58% of total free amino acids, may serve as storage nitrogen. Arginine seems to be changed into proline in rhizome. threonine in stem and again threonine and arginine in leaf. The greater the root weight the higher the polyamine stimulated Polyamine stimlllated the growth of root callus. Physiological roles of other minor nitrogen compounds are unknown although content is relatively high ((1.if) 6.w). Biochemical and pharmacological activities of some nitrogen compounds for animal were more investigated than physiological role there plant itself. Radiation and U.V protective function (heat stable protein). insulin-like activity in lipogenesis and livolysis (adenosine and pyroglutamic acid), depression of blood sugar content (glycopevtide). htmostatic and nellrotoxic activity (dencichine) and, sedative and hypnotic activity (4-methyl-i-thiazoleethanol) are reported. Heat stable protein increased with root age. The traditional quality criteria appear to be well in accordance with biological activities of nitrogen compounds. Chemical studies of nitrogen compounds seem relatively rare, probably due to difficulty of isolation, subsequently the investigations of biological activities are little.

• Journal of Ginseng Research
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• v.14 no.2
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• pp.317-331
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• 1990

Nitrogen compounds of Panax ginseng and their biological activities in plant and animal were reviewed. Major nitrogen combounds found in P. ginseng are free amino acids, Water soluble teins, insoluble proteins and peptides. Minor nitrogen compounds are dencichine. glycol)roteins. amines, alkaloides, methoxy or alkyl pyrazine derivatives. free nucleosides and nllrleir arid bases. 4-me- thymi-5-thiazoleethanol and pyroglutamic acid. The contents of total nitrogen and protein in root increased until 13 years old rvhich was the highest age tinder investigation. Soluble protein content increased With the root weight and was higher in xylem pith than cortex-epidermis indicating the rlosc relation with root growth. Arginine which covered 58% of total free amino aroids may serve as a storage nitrogen. Arginine seems to be changed into proline in rhizome, threonine in stem and again threoning and arginine in leaf. The greater the root weight the higher the polyaminc content. Polyamine stimulated the growth of root callus. Physiological roles of other minor nitrogen compounds are unknown although dencichine content is relatively high (0.5% d.w.). biochemical and pharmatological activities of some nitrogen compounds for animal were more investigated than physiological roll iota plant itself. Radiation and U.V. protective function (heat stable protein), insulin-like activity in lipogenesis and lipolysis (adenosine and pyroglutamic acid), depression of blood sugar content (glycopeptide). hemostatir and nellrotoxic activity (denrichine) and. sedative and hypnotic activity (4-methyl-5-thiazoleethilnol) are reported. Heat stable protein increased with root age. The traditional quality critsria appear to be well in accordance with biological activities of nitrogen compounds. Chemical stlldies of nitrogen compounds seem relatively rare, probably dole to difficulty of isolation, subsequently the investigations of biological activities are little.

• Korean Journal of Plant Tissue Culture
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• v.28 no.6
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• pp.347-351
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• 2001

Panax ginseng C.A. Meyer is a well-known Korean traditional medicine. Until now, even though major research of ginseng has been focused on the pharmacological effect, clinical application and chemical analysis of extracted secondary metabolite for several years, the physiology and gene functions of ginseng were not well known. In this research, we have developed the protein extraction methods of ginseng root and hairy root for proteome analysis in order to elucidate the gene(s) function of ginseng. Using the liquid nitrogen (equation omitted) TCA method as protein extraction method, about 660 protein spots were detected on the 2-DE gel of hairy root. Additionally, comparative analysis result of 2-DEs of ginseng root (equation omitted) hairy root suggested that proteomes of same organism could be changeable according to the culture condition, growth stages and other stimulus.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.30 no.2
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• pp.180-183
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• 1985

Percent dormant root and percent missing root were investigated in ginseng (Panax ginseng) plantations and correlated with soil chemical characteristics. Percent dormant root showed no consistency with root age and significant positive correlation with percent missing root in many cases. Percent dormant root showed significant positive correlation with available phosphorus and phosphorus-moisture ratio in soils. Percent missing root showed significant negative correlation with moisture and calcium in soil and positive one with phosphorus - moisture ratio. Above results strongly suggest that excess phosphorus and water stress are the common causes of dormancy and missing of root.