• Korean Journal of Medicinal Crop Science
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• v.8 no.4
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• pp.334-341
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• 2000

This study was conducted to determine the effects and optimum concentrantion of chemical mutagens, colchicine, EMS (ethyl methan sulfonate), MNU (1-methyl-3-1­-nitrosoguanidinenitro), sodium azide $(NaN_3)$ for induction of mutant plants. In order to induce the mutants of Dianthus superbus L, immature seed were pre-soaked in the warter adding each mutagens and concentration of EMS, colchicine, MNU, and sodium azide $(NaN_3)$. Comparision of morphological characteristic and seed germination in each mutant plants differed depending on mutagen sources and their concentrations. When 0.2% EMS were treated on seed, germination decreased to 12% while untreated control was germinated 76.6% for twenty days. Treatments of colchicine appeared higher germination than other mutagen but not survived. The survival rate was extremely decreased in MNU treatment at 0.5mM and chlorophyll-mutant plantlets were obtained by sodium azide treatment at 0.2mM. Chlorophyll mutants were produced by pre-soaking the immature seed of Dianthus superbus L. with mutagen, sodium azide. The control plants appeared normal green leaf color, while mutant plant after mutagenic treatment of immature seed results in yellow­-green stripes and albino in normal green leaf tissue. RAPD was carried out to check the genetic modification of regenerated plants by mutagen treatments at 0.2mM sodium azide. Three polymorphic DNA fragments out of thirty-seven obtained by RAPDs were observed in regenerated plants using five decamer primers.

• Korean Journal of Plant Resources
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• v.37 no.4
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• pp.360-385
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• 2024

This study was carried out to clarify the distribution of vascular plants in Biryongsan Mt. (1,129 m) and Baebawhisan Mt. (967 m) (a.s.l., 36° 55'~37° 06' N, 129° 03'~29° 09' E), Gyeongsangbuk-do. The surveys were conducted 13 times from April 2019 to August 2022. The vascular plants of Biryongsan Mt. and Baebawhisan Mt. was consisted a total of 570 taxa based on the voucher specimens; 108 families, 334 genera, 506 species, 17 subspecies, 44 varieties, 3 forms. Among them, the Korean endemic plants were 12 taxa. The of number of threatened and near threatened plants, as National Red List of Vascular Plants in Korea designated by the Korean National Arboretum, were 8 taxa, comprising 1 endangered (EN), 3 vulnerable (VU), and 4 near threatened (LC) species. The number of floristic target plants designated by the Ministry of Environment was 104 taxa, including 10 of level IV and 28 of level III. The naturalized plants in this area were 42 taxa. Among 570 taxa, there were 403 edible plants, 461 medicinal plants, 221 industrial plants, 306 ornamental plants, and 17 taxa with unknown usefulness respectively.

• Korean Journal of Plant Resources
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• v.27 no.5
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• pp.477-484
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• 2014

This study was carried out to investigate the vascular plants of the Mt. Galjeongok-bong (1204 m) Protected Area for Forest Genetic Resource Conservation. The vascular plants collected 12 times (from March 2007 to October 2012) were consisted of total 385 taxa; 82 families, 232 genera, 335 species, 4 subspecies, 43 varieties and 3 forms respectively. Among them, 9 taxa Korean endemic plants and 21 taxa of Korean rare plants were investigated in addition to 89 taxa of specially designated plants announced by the Ministry of Environment. The naturalized plants were 9 taxa, therefore naturalized ratio was 2.3%. 385 taxa listed consists of 152 taxa (39.5%) of edible plants, 123 taxa (31.9%) of medicinal plants, 120 taxa (31.2%) of pasture plants, 52 taxa (13.5%) of ornamental plants, 16 taxa (4.2%) of timber plants, 4 taxa (1.0%) of fiber plants and 3 taxa (0.8%) of industrial plants.

• Korean Journal of Plant Resources
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• v.32 no.4
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• pp.355-378
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• 2019

We investigated the flora of vascular plants in Mt. Papyeong which is located in the northern part of Paju and the border of western DMZ through 13 surveys from April 2016 to August 2019. The vascular plants of Mt. Papyeong include 410 taxa; 361 species, 9 subspecies, 36 varieties, and 4 forms from 257 genera of 91 families. Among 410 taxa, we characterize endemic species, rare and endangered plants, floristic regional indicator plants, and climate change adapted plants in Korea. Specifically, there are 9 Korean endemic plants designated by Korea National Arboretum and 6 taxa by Korean Ministry of Environment. According to IUCN evaluation, there are 13 rare and endangered plants in Mt. Papyeong. On the other hand, 2 taxa were listed in a red list suggested by Korean Ministry of Environment. The floristic regional indicator plants include 46 taxa which are composed of 2 species of IV degree, 13 taxa of III degree, 11 taxa of II degree, and 20 taxa of I degree. Also, 27 naturalized plants were identified, and the percentage of Naturalized Index (NI) and Urbanization Index (UI) were 6.58%, and 8.43%, respectively. We hope that this investigation provide a valuable data for applying the further studies on the biodiversity and strategy of conservation of environment in the DMZ and Paju areas.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.39 no.6
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• pp.537-541
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• 1994

This study was conducted to investigate the possibility of callus induction and plant regeneration from immature inflorescence, stem and petiole of A. koreana MAX. which is worth enough to be used as food and medicine. The callus induction and its proliferation was best when immature inflorescence segments were placed on MS medium supplemented with 2, 4-D 2mg / l. The white and compact embryogenic callus on the surface of dark yellow and soft callus which was induced from immature inflorescence segments came into being only on MS medium with 2, 4-D 1mg /l and 2mg /l, but didn't come into being on the other ones. The shoot came into being effectively from callus derived from immature inflorescence on MS medium mixed 2, 4-D 0. 1mg /l with Kinetin 1mg /l, and 2, 4-D 0.5mg /1 with Kinetin 2mg /l. Immature inflorescence was most appropriate material for callus induction and plant regeneration.

• Research in Plant Disease
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• v.12 no.1
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• pp.55-57
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• 2006

Stem rot of Houttuynia cordata occurred in the experiment field of Research Institute of Natural Product, Uiseong, Gyeongbuk, Korea in July 2003. The typical symptoms of the disease were water-soaking, stem rot, necrotic tuber. White mycelial mats were spread over lesions and sclerotia were formed on died plant and near soil line. The sclerotia were spherical and irregular, 1-2.5 mm on potato dextrose agar (PDA), white to brown in color, The optimal temperature for hyphal growth was $28{\sim}30^{\circ}C$ and the hyphal diameter was $3{\sim}9{\mu}m$. Clamp connections were observed on PDA. Pathogenicity of the casual organism was provided on H. cordata according to Koch's postulate. The fungus was identified as Sclerotium rolfsii Saccardo on the basis of mycological characteristics and pathogenicity test to host plants. This is the first report on the stem rot of H. cordata caused by S. rolfsii in Korea.

• Proceedings of the Plant Resources Society of Korea Conference
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• 2020.08a
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• pp.29-29
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• 2020

본 연구는 현재 공주대학교 포장에 보존되어 있는 식용, 약용, 관상용 등의 매실나무 유전자원에 대한 외부 형태적 특성평가를 통하여 향후 우수한 종자원 확보와 양묘생산의 토대 및 육종을 위한 소재로 활용할 수 있는 기초 정보를 제공하기 위하여 실시하였다. 매실나무의 엽형은 난형에 가까웠는데, 엽장은 평균 76.9±9.7mm (최소 52.0mm, 최대 102.0mm)이었으며, 엽폭은 평균 41.9±6.4mm (최소 27.0mm, 최대 60.0mm)이었고, 엽병장은 평균 9.5±2.6mm (최소 4.0mm, 최대 24.0mm)이었다. 이들 형질의 변이계수는 엽병장이 27.7%로서 가장 높아 엽장과 엽폭에 비해 진폭이 컸으며, 다음으로 엽폭 (15.3%), 엽장 (12.6%) 순이었다. 매실나무 엽장은 71~80mm에서 가장 높은 비율 (50.3%)을 나타내었으며, 다음으로 81~90mm (21.9%), 61~70mm (12.4%), 91mm 이상 (8.0%), 60mm 이하 (7.4%) 순이었다. 엽폭은 41~50mm에서 가장 높은 비율 (45.8%)을 나타내었으며, 다음으로 31~40mm (41.8%), 51mm 이상 (7.4%), 30mm 이하 (5.0%) 순이었다. 엽병장은 6~10mm에서 가장 높은 비율 (72.6%)을 나타내었으며, 다음으로 11~15mm (22.4%), 16mm 이상 (3.0%), 5mm 이하 (2.0%) 순이었다. 엽형 형질 간의 상관계수는 모두가 0.2 이하로 상관관계가 약하였으나 표본수가 많아 유의한 값을 나타내었으며, 엽장과 엽폭이 0.242로 가장 높았고, 다음으로 엽장과 엽병장 (0.173), 엽폭과 엽병장 (0.001) 순이었다.

• The Korean Journal of Food And Nutrition
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• v.34 no.4
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• pp.390-397
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• 2021

The purpose of this study was to investigate at how the quality of citron changed during storage as a result of the browning inhibitor treatment. In the browning inhibitor treatment, Vit.C, Vit.C+NaCl, Vit.C+NaCl+CD substances were used. As a result of investigating the browning degree, Vit.C+NaCl+CD showed the lowest value of 0.76 when stored for 12 weeks. The 𝚫E of the chromaticity value indicated that significant color change occurred when the value was high. As the Vit.C+NaCl+CD mixture showed the lowest value of 46.01 at 25℃, it was found that browning did not occur much compared to other treatments. The change in polyphenol oxidase (PPO) activity of citron increased as browning progressed. Among the browning inhibitor solutions, Vit.C+NaCl+CD solution showed the lowest value 118.8 u/g at 25℃ after 12 weeks. Based on these findings, it seems that CD mixing solution can be used as a citron browning inhibitor.

• Journal of Ginseng Culture
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• v.3
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• pp.54-73
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• 2021

The Natural Products Research Institute (NPRI, 生藥硏究所), an institution affiliated with Keijo Imperial University (京城帝國大學), was the predecessor of the NPRI at Seoul National University and a comprehensive research institute that focused on ginseng research during the Japanese colonial era. It was established under the leadership of Noriyuki Sugihara (杉原德行), a professor of the second lecture in pharmacology at the College of Medicine in Keijo Imperial University. Prof. Sugihara concentrated on studying Korean ginseng and herbal medicine beginning in 1926 when the second lecture of pharmacology was established. In addition to Prof. Sugihara, who majored in medicine and pharmacology, Kaku Tenmin (加來天民), an assistant professor who majored in pharmacy; Tsutomu Ishidoya (石戶谷勉), a lecturer who majored in agriculture and forestry; and about 36 researchers actively worked in the laboratory before the establishment of the NPRI in 1939. Among these personnel, approximately 14 Korean researchers had basic medical knowledge, derived mostly from specialized schools, such as medical, dental, and pharmaceutical institutions. As part of the initiative to explore the medicinal herbs of Joseon, the number of Korean researchers increased beginning in 1930. This increase started with Min Byung-Ki (閔丙祺) and Kim Ha-sik (金夏植). The second lecture of pharmacology presented various research results in areas covering medicinal plants in Joseon as well as pharmacological actions and component analyses of herbal medicines. It also conducted joint research with variousinstitutions. Meanwhile, in Gaesong (開城), the largest ginseng-producing area in Korea, the plan for the Pharmaceutical Industry Complex was established in 1935. This was a large-scale project aimed at generating profits through research on and the mass production of drugs and the reformation of the ginseng industry under collaboration among the Gaesong Ministry, Kwandong (關東) military forces, Keijo Imperial University, and private organizations. In 1936 and 1938, the Gyeonggi Provincial Medicinal Plant Research Institute (京畿道立 藥用植物硏究所) and the Herb Garden of Keijo Imperial University (京城帝國大學 藥草園) and Pharmaceutical Factory were established, respectively. These institutions merged to become Keijo Imperial University's NPRI, which wasthen overseen by Prof. Sugihara as director. Aside from conducting pharmacological research on ginseng, the NPRI devoted efforts to the development and sale of ginseng-based drugs, such as Sunryosam (鮮麗蔘), and the cultivation of ginseng. In 1941, the Jeju Urban Test Center (濟州島試驗場) was established, and an insecticide called Pancy (パンシ) was produced using Jeju-do medicinal herbs. However, even before research results were published in earnest, Japanese researchers, including Prof. Sugihara, hurriedly returned to Japan in 1945 because of the surrender of Japanese forces and the liberation of Korea. The NPRI was handed over to Seoul National University and led by Prof. Oh Jin-Sup (吳鎭燮), a former medical student at Keijo Imperial University. Scholars such as Woo Lin-Keun (禹麟根) and Seok Joo-Myung (石宙明) worked diligently to deal with the Korean pharmaceutical industry.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.64 no.2
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• pp.102-108
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• 2019

Pericarp thickness of vegetable corns such as sweet and waxy corn is one of the crucial traits, contributing to their edible quality. This study was carried out to compare the pericarp thickness of super sweet and waxy corn hybrids measured with kernel samples prepared using different methods at different grain filling periods. The samples comprised excised pericarp from dried, frozen (at $-4^{\circ}C$), and fresh kernels. Analysis of variance performed separately on super sweet and waxy corn hybrids indicated a significant three-way interaction among cultivars, kernel sample preparation methods, and days after pollination (DAP). Dried samples of super sweet corn hybrids presented reasonably stable pericarp thickness measurements during grain filling, while all the sample preparation methods fluctuated less as grains of waxy corn hybrids matured. Waxy corn is best consumed at around 24 days after pollination. Pericarp thickness of waxy kernel samples regardless of preparation methods investigated was the same at 24 DAP with a few exceptions. Overall, the common method of drying kernel samples before pericarp excision can provide reliable data for estimating the tenderness of vegetable corn hybrids.