• Journal of Ginseng Research
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• 제26권3호
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• pp.165-169
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• 2002

고려인삼의 적변내성 지표성분을 선발하기 위하여 적변지수가 낮아 적변에 강한 건전계통(LRL) 7계통과 적변지수가 높아 적변에 약한 적변계통(HRL) 7계통을 선발하여 시료로 사용하였다. 4년생과 6년생의 적변지수 상관관계는 고도의 유의성을 나타내었다. phenolic compounds 함량이 중심주 및 지세근 조직에서는 차이가 없었다. 피층조직에서는 적변인삼은 건전인삼보다 phenolic compounds 성분 함량이 높았으나, 적변의 정도를 동일하게 한적변계통군와 건전계통군간에는 phenolic compounds 함량의차이가 없어서 지표성분으로 활용 가능성이 없었다. 표피조직에서 적변삼은 건전삼에 비해 phenolic compounds 함량이 높았고, 적변삼이나 건전삼을 시료로 사용 했을 때 모두 적변계통군(HRL)은 건전계통군(LRL)보다 phenolic compounds 함량이 높아서, 적변삼 선발 지표성분으로 활용 가능성이 제시되었다.

• Journal of Ginseng Research
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• 제9권1호
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• pp.24-35
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• 1985

Rusty root of ginseng has been known as one of the limiting factors in ginseng production in Korea. An attempt was, therefore, made to elucidate biological and chemical natures of the rusty root, and the redox Potential of the ginseng cultivated soils were measured and compared with diseased and non-diseased soils. Reddish discoloration was most frequently observed on the epidermis of ginseng root and the pigments were accumulated in all epidermal cells of the diseased lesions. The lower the redox potential of the ginseng cultivated soil was, the more severe the rusty root was observed. Fe content in the diseased epidermis was 3 times higher than that of healthy one. Organic acids such as oxalic, malonic, succinic, and citric acids were also higher in the mss root than in the healthy one. Thin layer chromatogram of phenolic acid fractions obtained from the epidermal cells of the rusty root of ginseng exhibited 3 to 4 unidentified substances not found in the healthy root. Also lignification of the epidermal cells and the activity of phenylalanine ammonia lyase were greater in the rusty root than the healthy root. Colony formation and conidia production of F. solani, And mycelial growth and sclerotium formation of Sclerotinia sp. isolated from ginseng root were suppressed in a nutritionally minimal medium supplemented with water extract of rusty ginseng root epidermis. It is, therefore, suggested that rusty root of ginseng is caused by unfavorable rhizosphere environmental stress or stresses resulting abnormal metabolism in the root as a selfdefence mechanism of non-specific resistance responses.

• Journal of Ginseng Research
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• 제26권3호
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• pp.159-164
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• 2002

고려인삼의 적변내성 계통을 선발하기 위하여 39계통을 포장시험에 공시하여 적변지수가 낮아 적변에 강한 건전계통(LR) 7계통과 적변지수가 높아 적변에 약한 적변계통(HRL)7계통을 선발하였다. 적변내성 인삼 선발을 위한 지표성분으로 무기성분의 가능성을 검토하기 위하여 I(건전계통군의 건전삼과 적변계통군의적변삼 비교), II(건전계통군의 건전삼과 적변삼 비교), III(적변계통군의 건전삼과 적변삼비교), IV(적변삼의 건전계통군과 적변계통군 비교), V(건전삼의 건전계통군과 적변계통군 비교) 5개 조합으로 구성하여 부위별로 무기성분 함량을 비교하였다. 계통군 및 적변지수별 무기성분 함량이 중심주 및 피층조직에서는 유의성이 없었으며, 지세근 조직에서도 일정한 경향이 없었다. 각 계통군내 비교에서 적변인삼은 건전인삼보다 표피조직에서 Fe, Na및 Al함량이 높았다. 표피조직에서 적변계통군(HRL)은 건전계통군(LRL)보다 적변삼이나 건전삼 시료 모두에서 Fe, Al함량이 높아 적변내성 계통 선발 지표성분으로 활용 가능성을 제시한다.

• Journal of Ginseng Research
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• 제26권1호
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• pp.6-9
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• 2002

본 연구는 현재 수삼수납 시 품질검사요원의 관능검사로 판정되고 있는 6년근수삼의 적변판정에 대하여 영상분석기를 이용한 수삼의 적변 자동판정 시스템을 개발하고자 수행하였다. 영상분석기에 의한 수삼 총면적에 대한 grey valuequf 면적비율을 조사하여 이에 대한 회귀 및 판별분석을 실시한 결과, 정상삼과 적변삼을 구별할 수 있는 임계값은 총 면적에 대한 grey value 148에서의 면적비율(G148)로 분석되었으며, 임계값인 G(148)을 이용하여 다음과 같은 판별식을 구하였다. 적변삼의 판별식 : 6.67951$\times$G(148)+3.74122, 정상삼의 판별식 : 2.85942$\times$G(148)+9.95612, 본 판별식의 적중율은 89.8%로 이는 앞으로 계속적인 연구로 적변삼의 판정 적중율을 증가시킬 수 있을 것인 바, 컴퓨터 등 기계에 의한 적변 자동판정의 가능성은 매우 클 것으로 사료된다.

• 한국작물학회지
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• 제47권3호
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• pp.161-166
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• 2002

인삼 뿌리에 발생하는 적변현상을 구명하기 위하여 적변삼표피의 형태적 특성, 세균의 밀도 및 무기물 함량의 변화를 조사한 결과, 다음과 같은 결론을 얻었다. 1. 적변삼의 표피는 건전삼에 비하여 두꺼웠으며, 세포벽이 분해되어 심하게 파괴되어 있었다. 그러나 건전삼의 경우에는 세포가 장방형의 일정한 형태를 유지하고 조직의 파괴도 전혀 발생하지 않았다. 2. 파괴된 적변삼의 표피조직에는 막대모양의 세균이 다수 존재하였으며, 세균밀도는 2.9$\times$$10^{6}$-3.5$\times$$10^{7}$ CFU/g(fresh weight)으로 많은 세균이 분리되었다. 건전삼표피조직에서는 세균이 거의 관찰되지 않았으나, 세균밀도는 4.7$\times$$10^2$-1.2$\times$$10^3$ CFU/g(fresh weight)으로 적변삼에 비하여 매우 낮게 나타났다. 3. 인공적으로 분리세균을 접종하여 적변을 유발시킨 표피조직에서도 자연발생 적변삼에서와 동일한 표피조직의 파괴양상을 보였으며, 다수의 세균이 관찰되었다. 4. 적변삼의 표피조직에서는 Al, Si 및 Fe의 함량이 높았으나, 건전삼에서는 K의 함량이 높게 나타나 적변현상의 발생은 표피조직에서 무기물 함량의 변화를 유발하였다

• Journal of Microbiology and Biotechnology
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• 제21권2호
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• pp.192-196
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• 2011

Microbial induction of rusty-root was proved in this study. The enzymes hydrolyzing plant structural materials, including pectinase, pectolyase, ligninase, and cellulase, caused the rusty-root in ginseng. Pectinase and pectolyase produced the highest rusty-color formation. Ferrous ion ($Fe^{+++}$) caused the synergistic effect on rusty-root formation in ginseng when it was used with pectinase. The effect of ferric ion ($Fe^{++}$) on rusty-root formation was slow, compared with $Fe^{+++}$, probably due to gradual oxidation to $Fe^{+++}$. Other metal ions including the ferric ion ($Fe^{++}$) did not affect rusty-root formation. The endophytic bacteria Agrobacterium tumefaciens, Lysobacter gummosus, Pseudomonas veronii, Pseudomonas marginalis, Rhodococcus erythropolis, and Rhodococcus globerulus, and the rotten-root forming phytophathogenic fungus Cylindrocarpon destructans, caused rusty-root. The polyphenol formation (rusty color) was not significantly different between microorganisms. The rotten-root-forming C. destructans produced large quantities of external cellulase activity (${\approx}2.3$ U[${\mu}m$/min/mg protein]), which indicated the pathogenecity of the fungus, whereas the bacteria produced 0.1-0.7 U. The fungal external pectinase activities (0.05 U) and rusty-root formation activity were similar to those of the bacteria. In this report, we proved that microbial hydrolyzing enzymes caused rusty-root (Hue value $15^{\circ}$) of ginseng, and ferrous ion worsened the symptom.

• 한국약용작물학회지
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• 제14권6호
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• pp.336-341
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• 2006

The endophytic bacteria were isolated from the rusty-root ginseng. This isolated bacteria were occurred the rusty-root ginseng with artificial inoculation. For the suppressing of rusty-ginseng, disinfectants, antibiotics, kitosan, micro-organisms and metabolites were tested to isolated endophytic bacterium. All of the isolated bacteria strains were sensitive sodium hypochlorite, however, some of isolated bacteria lines were sensitive to other tested materials. For example, D (didecyl dimethyl ammonium bromide), CIO$_2$, ODDA (octyldecyl dimethyl ammonium chloride + diocyul dimethyl ammonium chloride + alkyl diethyl benzyl ammonium chloride), GD (glutaraldehyde + dimethy cocobenzyl ammonium chloride) suppressed some of bacteria strains. Otherwise, some of antibiotics (e.g. ampicillin, chloramphenicol, erythromycin, kanamycin, neomycin, rifampin, streptomycin, tetracycline) were sensitive to the isolated bacteria strains. All of isolated bacteria strainswere inhibitive to the mixed formation with neomycin and streptomycin, and neomycin and tetracycline. Both sodium hypochlorite and antibiotic mixing of neomycin and tetracycline were effective to prevention of rusty-root ginseng of sub-merging ginseng in the ginseng field.

• Journal of Ginseng Research
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• 제19권1호
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• pp.77-83
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• 1995

This study was conducted to investigate the chemical components of rusty root for seeking the cause of rust. Na, Fe contents were higher in various tissues of six-year-old rusty root than healthy root. Contents of total sugar in epidermis of rusty root was low but crude lignin and suborn contents were high. Crude lipid content increased with the rate of rusty symptoms in each part of root respectively. Pentadecanoic, stearic, oleic, lignoseric acid contents increased in cortex of tap root with the rate of rusty symptoms but decreased in pith. Total ginsenoside and crude saponin contents increased , in pith and cortex of tap root with the rate of rusty symptoms but decreased in lateral and fine root.

• Journal of Ginseng Research
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• 제42권1호
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• pp.9-15
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• 2018

Cylindrocarpon destructans/Ilyonectria radicicola is thought to cause both rusty symptom and root-rot disease of American and Korean ginseng. Root-rot disease poses a more serious threat to ginseng roots than rusty symptoms, which we argue result from the plant defense response to pathogen attack. Therefore, strains causing rotten root are characterized as more aggressive than strains causing rusty symptoms. In this review, we state 1- the molecular evidence indicating that the root-rot causing strains are genetically distinct considering them as a separate species of Ilyonectria, namely I. mors-panacis and 2- the physiological and biochemical differences between the weakly and highly aggressive species as well as those between rusty and rotten ginseng plants. Eventually, we postulated that rusty symptom occurs on ginseng roots due to incompatible interactions with the weakly aggressive species of Ilyonectria, by the established iron-phenolic compound complexes while root-rot is developed by I. morspanacis infection due to the production of high quantities of hydrolytic and oxidative fungal enzymes which destroy the plant defensive barriers, in parallel with the pathogen growth stimulation by utilizing the available iron. Furthermore, we highlight future areas for study that will help elucidate the complete mechanism of root-rot disease development.

• Journal of Ginseng Research
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• 제16권1호
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• pp.44-52
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• 1992

This study investigated ginsenosides and tissue characteristics of roots injured by physiological disorder, rusty and rough skin. After separation to cortex and stele parts of healthy, rusty (red) and rough skin roots, respectively, the contents of saponin and ginsenosides were analyzed. And also, the histological and cytological characteristics of cortex and stele parts were investigated. Crude saponin contents were little different among healthy, rusty (red) and rough skin root and ginsenesides as - Rgl, - Re and - Rbl were largely detected both in stele and cortex part. The ratio of PT/PD showed about 1:1 in three kinds of root. In histological study, destoryed cells in epidermis of rusty(red) root, and those in epidermis and exodermis of rough skin root were observed. The cells in cortex of rusty (red) and rough skin root have generally nucleus with unfixed shape, unequal cell wall, large number of vacuole and mitochondris, and unidentified dark substances compared to healthy root. But in cell of stele tissue, most of organellE seems to be normal except a small number of cells in rough skin root.