• Title/Summary/Keyword: Chunpoong cultivar

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Molecular identification of Korean ginseng cultivar "Chunpoong" using the mitochondrial nad 7 intron 4 region (Mitochondrial nad 7 intron 4 region을 통한 분자생물학적 고려인삼품종 "천풍"검증)

  • Wang, Hong-Tao;Kim, Min-Kyeoung;Kwon, Woo-Saeng;Yang, Deok-Chun
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2010.05a
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    • pp.15-15
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    • 2010
  • Koran ginseng(Pnax ginseng) is one of the most important medicinal plants in Orient. Among the nine cultivars of Korea ginseng, Chunpoong commands a much greater market value and has been planted widely. A rapid and reliable method for discriminating the Chunpoong cultivar was developed by exploiting a single nucleotide polymorphism (SNP) in the mitochondrial nad7 intron 4 region of nine Korea ginseng cultivars using universal primers. A SNP was detected between Chunpoong and other cultivars and modified allele-specific primers were designed from this SNP site to effective method for the geneic identification of the Chunpoong cultivar of ginseng.

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Discrimination of Korean ginseng (Panax ginseng Meyer) cultivar Chunpoong and American ginseng (Panax quinquefolius) using the auxin repressed protein gene

  • Kim, Jong-Hak;Kim, Min-Kyeoung;Wang, Hongtao;Lee, Hee-Nyeong;Jin, Chi-Gyu;Kwon, Woo-Saeng;Yang, Deok-Chun
    • Journal of Ginseng Research
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    • v.40 no.4
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    • pp.395-399
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    • 2016
  • Background: Korean ginseng (Panax ginseng) is one of the most important medicinal plants in the Orient. Among nine cultivars of P. ginseng, Chunpoong commands a much greater market value and has been planted widely in Korea. Chunpoong has superior quality "Chunsam" ($1^{st}$ grade ginseng) when made into red ginseng. Methods: A rapid and reliable method for discriminating the Chunpoong cultivar was developed by exploiting a single nucleotide polymorphism (SNP) in the auxin repressed protein gene of nine Korean ginseng cultivars using specific primers. Results: An SNP was detected between Chunpoong and other cultivars, and modified allele-specific primers were designed from this SNP site to specifically identify the Chunpoong cultivar and P. quinquefolius via multiplex polymerase chain reaction (PCR). Conclusion: These results suggest that great impact to prevent authentication of precise Chunpoong and other cultivars using the auxin repressed protein gene. We therefore present an effective method for the authentication of the Chunpoong cultivar of P. ginseng and P. quinquefolius.

Optimal Harvesting Time of Ginseng Seeds and Effect of Gibberellic Acid (GA3) Treatment for improving Stratification Rate of Ginseng (Panax ginseng C. A. Meyer) Seeds (인삼 종자의 개갑률 향상을 위한 적정 수확시기 및 GA3 처리 효과)

  • Kim, Young Chang;Kim, Young Bae;Park, Hong Woo;Bang, Kyong Hwan;Kim, Jang Uk;Jo, Ick Hyun;Kim, Kee Hong;Song, Beom Heon;Kim, Dong Hwi
    • Korean Journal of Medicinal Crop Science
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    • v.22 no.6
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    • pp.423-428
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    • 2014
  • This study was performed to identify optimal harvesting time of ginseng seeds and to examine the effect of $GA_3$ treatment for improvement of seed stratification rate. Ginseng seeds harvested from Land race, Chunpoong and Yunpoong cultivar in July 20 were tested for stratification rate. It was shown that stratification rates of land race, Yunpoong and Chunpoong cultivar were 94.1%, 93.1%, and 82.6%, respectively. Seeds of Chunpoong cultivar harvested 10-15 days later showed a comparable stratification rate to that of Land race, indicating that late harvest of Chunpoong seeds is beneficial for the increase of stratification rate. The higher stratification rate was found in mature seeds (92.3%) than immature seeds (37.8%), both of which were harvested in July 20. Stratification rate of mature seeds harvested in July 15 was 87.5%, demonstrating optimal harvesting time of ginseng seeds with higher stratification rate is after mid-July. An exponential growth of endosperms of ginseng seeds was observed from early June to mid-June and then slow growth was observed. There was no obvious growth of embryos from fertilization to mid-August. After the this time, embryos quickly grew until late October. Thus, appropriate stratification control is essential during the period (from early September to late October) in order to optimize embryo growth and development. While no increase of stratification rate was observed in seeds treated with 50 ppm of $GA_3$, significant increases were observed in seeds treated with 100 ppm of $GA_3$. At this concentration of $GA_3$, the stratification rate of Land race, Chunpoong and Yunpoong cultivar was 95.0%, 95.3%, and 96.5%, respectively.

Identification of 'Chunpoong' among Panax ginseng Cultivars Using Real Time PCR and SNP Marker

  • Sun, Hua;Lee, Ok-Ran;Kim, Yu-Jin;Jeong, Seok-Kyu;In, Jun-Gyo;Kwon, Woo-Saeng;Kim, Se-Young;Yang, Deok-Chun
    • Journal of Ginseng Research
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    • v.34 no.1
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    • pp.47-50
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    • 2010
  • The common DNA extraction methods are indispensable for genotyping by molecular marker analysis. However, genotyping a large number of plants is painstaking. A modified 'NaOH-Tris' method used in this study reduces the extraction time while keeping the cost low and avoiding the use of hazardous chemicals. The endpoint analysis by realtime PCR tends to be fast and effective for the development of SNP markers linked to the 'Chunpoong' cultivar of Panax ginseng. The 'Chunpoong' marker was developed by a major latex-like protein gene sequence. From our results, we suggest that this method is successful in distinguishing 'Chunpoong' from a large number of ginseng cultivars.

Growth characteristics of 2-year-old cultivars in Korean ginseng (Panax ginseng C. A. Meyer) conditioned artificial wet injury (인위적인 습해 유발조건에서 2년생 인삼 품종의 생육특성)

  • Kim, Jang-Uk;Lee, Jung-Woo;Jo, Ick-Hyun;Kim, Dong-Hwi;Kim, Kee-Hong;Kim, Young-Chang
    • Korean Journal of Agricultural Science
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    • v.42 no.4
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    • pp.299-304
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    • 2015
  • This study was conducted to investigate growth characteristics to develop the technique to select resistant cultivar by wet injury at an early stage through the automatic irrigation maintaining 30, 20, 10 kPa respectively using native variety, Chunpoong, Yunpoong, Gumpoong and Sunun. The aerial growth was decreased at 10 kPa compared to 30 kPa. In addition, the survival rate was decreased by 66.6%, 62.3%, 33.8% at 30, 20, 10 kPa, respectively. The survival rate of Chunpoong and Gumpoong were higher than others at 10 kPa. While root growth characteristics such as root length, root weight, number of lateral root and side root were tended to decrease, root diam was no significant or increased. And the more humid condition is, the more the incidence rate of rusty root and rough skin were tended to increase. The epidermal thickness of Chunpoong and Gumpoong was increased but the figures of native variety, Yunpoong and Sunun were decreased at 10 kPa compared to 30 kPa. But, the tissue stiffness of root was decreased at 10 kPa compared to 30 kPa.

'Kowon', a New Korean Ginseng Cultivars with High Yield and Alternaria Blight Resistance

  • Kim, Young Chang;Kim, Jang Uk;Lee, Jung Woo;Hong, Chi Eun;Bang, Kyong Hwan;Kim, Dong Hwi;Hyun, Dong Yun;Choi, Jin Kook;Seong, Bong Jae;An, Young Nam;Jeong, Haet Nim;Jo, Ick Hyun
    • Horticultural Science & Technology
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    • v.35 no.4
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    • pp.499-509
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    • 2017
  • Recently, there has been increased attention to the development of new plant cultivars with enhanced resistance to biotic and abiotic stress. To develop ginseng cultivars with such traits, systematic breeding programs and comprehensive field studies are prerequisites. In this study, we applied a pure-line selection method to identify a ginseng cultivar with enhanced stress resistance. Phenotypic and agronomic characteristics, seed yield, and physiological responses to biotic and abiotic stresses were investigated according to the guidelines of the International Union for the Protection of New Varieties of Plants (UPOV). In the newly developed 'Kowon' cultivar, the time of emergence, flowering, and berry maturity were intermediate between those of the controls, 'Yunpoong' and 'Chunpoong'. The stem length of 'Kowon' was intermediate, whereas the root length was shorter and the main root diameter was greater than those of 'Chunpoong'. In local adaptability tests conducted in three regions, the yield of 'Kowon' was $666kg{\cdot}10a^{-1}$; 27% and 4% higher than that of 'Chunpoong' and 'Yunpoong'. Diseases such as Alternaria blight, Phytophthora blight, mulberry mealybug, and nematode infestation did not occur in 'Kowon'; and it also exhibited moderate resistance to damping-off and anthracnose. In these cases, yellow spots occurred on aerial parts and the rusty skin of the root, and it exhibited moderate resistance at high temperatures. Our study demonstrates that 'Kowon', which has a high root weight and enhanced biotic/abiotic stress resistance, is a superior cultivar that could increase farmers' income.

Development of Reproducible EST-derived SSR Markers and Assessment of Genetic Diversity in Panax ginseng Cultivars and Related Species

  • Choi, Hong-Il;Kim, Nam-Hoon;Kim, Jun-Ha;Choi, Beom-Soon;Ahn, In-Ok;Lee, Joon-Soo;Yang, Tae-Jin
    • Journal of Ginseng Research
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    • v.35 no.4
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    • pp.399-412
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    • 2011
  • Little is known about the genetics or genomics of Panax ginseng. In this study, we developed 70 expressed sequence tagderived polymorphic simple sequence repeat markers by trials of 140 primer pairs. All of the 70 markers showed reproducible polymorphism among four Panax species and 19 of them were polymorphic in six P. ginseng cultivars. These markers segregated 1:2:1 manner of Mendelian inheritance in an $F_2$ population of a cross between two P. ginseng cultivars, 'Yunpoong' and 'Chunpoong', indicating that these are reproducible and inheritable mappable markers. A phylogenetic analysis using the genotype data showed three distinctive groups: a P. ginseng-P. japonicus clade, P. notoginseng and P. quinquefolius, with similarity coefficients of 0.70. P. japonicus was intermingled with P. ginseng cultivars, indicating that both species have similar genetic backgrounds. P. ginseng cultivars were subdivided into three minor groups: an independent cultivar 'Chunpoong', a subgroup with three accessions including two cultivars, 'Gumpoong' and 'Yunpoong' and one landrace 'Hwangsook' and another subgroup with two accessions including one cultivar, 'Gopoong' and one landrace 'Jakyung'. Each primer pair produced 1 to 4 bands, indicating that the ginseng genome has a highly replicated paleopolyploid genome structure.

Molecular Authentication and Genetic Polymorphism of Korean Ginseng (Panax ginseng C. A. Meyer) by Inter-Simple Sequence Repeats (ISSRs) Markers (ISSRs 마크에 의한 고려 인삼의 분자적 인증과 유전적 다형현상)

  • Bang, Kyong-Hwan;Lee, Sung-Woo;Hyun, Dong-Yun;Cho, Joon-Hyeong;Cha, Seon-Woo;Seong, Nak-Sul;Huh, Man-Kyu
    • Journal of Life Science
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    • v.14 no.3
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    • pp.425-428
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    • 2004
  • Molecular authentication and genetic polymorphism of Korean ginseng cultivars and accessions were investigated using ISSR (inter-simple sequence repeat amplification) markers. Five primers among 56 produced clear and reproducible DNA fragments among seven cultivars and accessions. A total of 43 bands ranging from 250 bp to 1,700 bp from five primers were scored. Average number of bands per primer was 8.6 and only nine bands were polymorphic across the six Panax ginseng from Korea. Especially Chunpoong cultivar exhibited the highest level of polymorphism, whereas other accessions did not showed almost any polymorphism. Consequently, these ISSR markers will be available to differentiate Chunpoong cultivar from other major Korean ginseng cultivars and accessions, such as Yunpoong, Hwangsukjong and Jakyungjong, at the DNA level.

Development of SSR Markers for Identification of Korean Ginseng (Panax ginseng C. A. Meyer) Cultivars (SSR 마커를 이용한 고려인삼 품종 판별기술 개발)

  • Bang, Kyong-Hwan;Chung, Jong-Wook;Kim, Young-Chang;Lee, Jei-Wan;Jo, Ick-Hyun;Seo, A-Yeon;Kim, Ok-Tae;Hyun, Dong-Yun;Kim, Dong-Hwi;Cha, Seon-Woo
    • Korean Journal of Medicinal Crop Science
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    • v.19 no.3
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    • pp.185-190
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    • 2011
  • The principal objective of this study was to develop a discrimination method using SSR markers in Korean ginseng cultivars. Five cultivars--Chunpoong, Yunpoong, Gopoong, Sunpoong, and Kumpoong--were evaluated by nine markers out of 22 SSR markers. A total of 23 alleles were detected, ranging from 1 to 4, with an average of 2.6 alleles per locus, and an averages of gene diversity (GD) of 0.480. Nine markers were tested in order to distinguish among five Korean ginseng cultivars. Two markers out of nine SSR markers, GB-PG-065 and GB-PG-142, were selected as key markers for discrimination among Korean ginseng cultivars. Two genotypes were detected in GB-PG-065. Chunpoong and Kumpoong shared the same allele type, and Yunpoong, Gopoong, and Sunpoong shared another identical allele type. In the case of GB-PG-142, a specific allele type differentiated from those of other four cultivars was observed only in Sunpoong cultivar. Consequently, the SSR markers developed in this study may prove useful for the identification of Korean ginseng cultivars and the development of ginseng seed management systems, as well as tests to guarantee the purity of ginseng seeds.

Fungal Endophytes from Three Cultivars of Panax ginseng Meyer Cultivated in Korea

  • Park, Sang-Un;Lim, Hyoun-Sub;Park, Kee-Choon;Park, Young-Hwan;Bae, Han-Hong
    • Journal of Ginseng Research
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    • v.36 no.1
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    • pp.107-113
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    • 2012
  • In order to investigate the diversity of endophytes, fungal endophytes in Panax ginseng Meyer cultivated in Korea were isolated and identified using internal transcribed spacer (ITS) sequences of ribosomal DNA. Three cultivars of 3-year-old ginseng roots (Chunpoong, Yunpoong, and Gumpoong) were used to isolate fungal endophytes. Surface sterilized ginseng roots were placed on potato dextrose agar plates supplemented with ampicilin and streptomycin to inhibit bacterial growth. Overall, 38 fungal endophytes were isolated from 12 ginseng roots. According to the sequence analysis of the ITS1-5.8S-ITS2, 38 fungal isolates were classified into 4 different fungal species, which were Phoma radicina, Fusarium oxysporum, Setophoma terrestris and Ascomycota sp. 2-RNK. The most dominant fungal endophyte was P. radicina in 3 cultivars. The percentage of dominant endophytes of P. radicina was 65.8%. The percentage of colonization frequency of P. radicina was 80%, 52.9%, and 75% in Chunpoong, Yunpoong, and Gumpoong, respectively. The second most dominant fungal endophyte was F. oxysporum. The diversity of the fungal endophytes was low and no ginseng cultivar specificity among endophytes was detected in this study. The identified endophytes can be potential fungi for the production of bioactive compounds and control against ginseng pathogens.