• Korean Journal of Plant Resources
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• v.31 no.1
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• pp.37-51
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• 2018

Molecular phylogenetic analysis was conducted to evaluate the taxonomic relationships of genus Arisaema L. distributed in Korea and the molecular phylogenetic characteristics of three authentic Arisaema species for the herbal medicine Arisaematis Rhizoma (the rhizomes of A. amurense, A. heterophyllum, and A. erubescens). The sequences of three DNA barcodes (rDNA-ITS, matK, and rbcL) were analyzed using 50 samples of nine taxa consisted of eight Korean and one Chinese Arisaema with one outgroup (Dracunculus vulgaris). Both individual and combined phylogenetic analyses of three DNA barcode sequences revealed that the treated nine taxa are independently classified into six distinct clades (Clade I, A. amurense f. amurense and A. amurense f. serratum; Clade II, A. serratum and A. takesimense; Clade III, A. ringens; Clade IV, A. erubescens; Clade V, A. heterophyllum; Clade VI, A. thunbergii subsp. thunbergii and A. thunbergii subsp. geomundoense). These six clades were reasonably divided into three individual sections, Pedatisecta, Sinarisaema, and Tortuosa. Futhermore, the results of comparative DNA barcode sequences analyses provided a significant information for the taxonomic reconsideration of Arisaema L. at the specific and intraspecific level. However, we could not confirm the taxonomic characteristics or identity among the three authentic medicinal species through the molecular phylogenetic analyses of genus Arisaema L. for Arisaematis Rhizoma.

• Korean Journal of Plant Resources
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• v.30 no.1
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• pp.58-77
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• 2017

This study was carried out to investigate the vascular plants of Mt. Nochu (1,322m) from April, 2014 to October, 2015. The vascular plants were summarized as 515 taxa, including 89 families, 304 genera, 448 species, 4 subspecies, 57 varieties and 6 forms. Among the investigated 515 taxa, 11 Korean endemic plants and 14 rare and endangered plants were included. The floristic regional indicator plants found in this area were 11 taxa of grade IV, 30 taxa of grade III. Naturalized plants consisted of 24 taxa that made up 4.6% of the total vascular plants in this area. Medicinal plants of the Korean Pharmacopoeia and Korean Herbal Pharmacopoeia distributed in this area consisted of 67 taxa.

• Analytical Science and Technology
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• v.25 no.2
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• pp.152-157
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• 2012

Currently, many types of compound preparations are being used but the quality control guidelines for their use are lacking. In case of single compound drug, the quality control methods are specified in the pharmacopeia. However, there is no method to simultaneously analyze compound preparations. In this study, a simple validated analytical method for HPLC separation of chlorquinaldol and promestriene is introduced. Validation was divided into categories including linearity, precision, accuracy (recovery) and system suitability. The contents of the products which are on the market were monitored using the validated analytical method and the robustness of the analytical method was tested by conducting an inter-laboratory validation.

• Korean Journal of Plant Resources
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• v.28 no.2
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• pp.178-192
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• 2015

This study was carried out to investigate the vascular plants of Neunggyeong-bong, Gangwond-do, South Korea. The vascular plants that were collected 7 times from 2008 and 2013 consisted a total of 440 taxa; 75 families, 261 genera, 383 species, 4 subspecies, 48 varieties and 5 forms. Among them, 15 taxa of Korean endemic plants and 11 taxa of rare and endangered plants were included. The floristic regional indicator plants found in this area were 11 taxa of grade IV, 22 taxa of grade III. Naturalized plants consisted of 29 taxa that made up 6.6% of the total vascular plants in this area. Medicinal plants of the Korean Pharmacopoeia and Korean Herbal Pharmacopoeia distributed in this area consisted of 60 taxa.

• Journal of Ginseng Culture
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• v.6
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• pp.80-104
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• 2024

Ginseng, a representative medicinal plant of South Korea, is also highly valued in North Korea. However, due to limited access to information about North Korea, the actual cultivation, research and development trends, and related industry status of ginseng in North Korea are not well known. In this study, we aimed to understand the current status and research trends of the ginseng industry in North Korea based on limited available literature. In the North Korean pharmacopoeia, ginseng is referred to as "Koryo ginseng" and is defined as the roots of 6-year-old ginseng cultivated in the Kaesong region. The pharmacopoeia includes 22 types of ginseng preparations. In addition, 10 ginseng preparations are included in North Korea's Essential Drug List, and various health supplements, cosmetics, and toothpastes containing ginseng have been developed, distributed, and sold. Since 2014, the ginseng industry and research in North Korea have become more active overall. During this period, the ginseng cultivation area in Kaesong has been significantly expanded, and the facilities have been renovated. The Kaesong Koryo Ginseng Processing Plant has been equipped with sterilized, modernized facilities since 2016 and has been in operation. Since 2017, there has been a growing interest in quality control research, leading to the introduction of quality management regulations and certification systems in 2019. In the 1990s, there was significant research on ginseng product development, and since the 2000s, studies on the pharmacological effects and clinical research of ginseng have been reported. Additionally, research on ginseng cultivation and ginseng processing industries to increase yield has been emphasized. Ginseng, as a representative medicinal crop of Korea, holds great importance for both South and North Korea. Given its significance and the potential for synergy through mutual cooperation, ginseng serves as an ideal subject for inter-Korean exchange and collaboration.

• The Korea Journal of Herbology
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• v.23 no.3
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• pp.135-140
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• 2008

Objectives : The purpose of this study is to clarify the medicinal using part of Linderae Radix. Methods : Find out the using part of Linderae Radix in the Pharmacopoeia, main Herbal book and present day scientific research result. Results : 1. In the Phamacopoeia of 6 Nation, The herbal name of Lindera strychnifolia is Linderae Radix, the origin is root, shapes of Linderae Radix are recorded spindle-shaped, slightly curved, some constricted in the middle to be moniliform on every Pharmacopoeia. But only in the Pharmacopoeoa of the people's republic of china, root is recorded as root tuber. 2. The Straight root of Linderae Radix can not be used as medicine on the Pharmacopoeia of the China, Vietnamese, Chinese Taipei. 3. In Gaebo Boncho(開寶本草) and Bonchodogyeong(本草圖經), Dongeuibogam(東醫寶鑑), Bonchogangmok(本草綱目), ickmulmyeongsildogo(植物名實圖考), only the spindle-shaped root of Linderae Radix can be used as medicine. 5. The picture of the root is also spindle-shaped. Conclusions : The herbal name of Lindera strychnifolia is Linderae Radix, medicinal using part is root tuber, spindle-shaped, some constricted in the middle to be moniliform, straight and not spindle-shaped tap roots can not be used medicinally, and allowing guide line of straight root will upgrade the quality of Linderae Radix.

• The Korea Journal of Herbology
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• v.24 no.3
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• pp.21-28
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• 2009

Objectives : The purpose of this study is to determine the herbal name and four Qi(四性) of genus curcuma in the Korea Pharmacopoeia ninth Edition. Methods : Compare with the name and four qi of genus curcuma from the Korea Pharmacopoeia ninth Edition and the other nation's Pharmacopoeia and main herbal medicine books. Results : 1. The Rhizoma of Curcuma longa is called Kanghwang in KP 9, but is called Ulgeum in the main herbal medicine book. 2. The Rhizoma of genus curcuma except Curcuma longa is called Achul in KP 9, but is called Kanghwang in the main herbal medicine book. 3. The root of genus curcuma is called Ulgeum in KP 9, but is called Achul in the main herbal medicine book. 4. The four qi of the Rhizoma and Radix of genus curcuma is recorded worm and cold in the Ch. p 2005, but is recorded cold and worm in the main herbal medicine book. Conclusions : Kanghwang, Achul, Ulgeum in the KP 9 is equivalent Ulgeum, Kanghwang, Achul in the main herbal medicine book. The four qi of Rhizoma is cold, Radix is warm.

• The Korea Journal of Herbology
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• v.25 no.1
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• pp.45-54
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• 2010

Objectives : The purpose of this study is to determine the impurity tolerance of Zanthoxylum Peel. Methods : Compare with medicinal Herb Books and the Pharmacopoeia of 6 nations. Results : Current Pharmacopoeia show different Zanthoxylum Peel's Purity, such as 2.0% of seeds and fruit stalk, etc. in North Korea, 2% of seeds in Vietnam, totally 3% in China. On the other hand, Korea and Japan set the total number 26.0% including the specific numbers such as 20.0% of seeds, 5.0% of fruit stalk, 1.0% of the other foreign matter. This Zanthoxylum Peel's Purity, 26.0%, is too high compared to that of other medical matters specified by The Korean Pharmacopoeia Ninth Edition. When The Japanese Pharmacopoeia Sixth Edition firstly set the Zanthoxylum Peel's Purity, the herbal name was Fructus. However, since the part for medical usage in origin is well-ripen pericarp, not seed, the permissible level, 30.0%, is supposed to be simple error range, 3.0%. Conclusions : As a result, I think bills concerning the Zanthoxylum Peel's Purity should be revised to the total number 3.0% or specifically set the level 2.0% of seeds, 1.0% of fruit stalk, twig and so on.

• Journal of the Korean Chemical Society
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• v.55 no.4
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• pp.620-625
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• 2011

A simple, rapid potentiometric back titration of Isoniazid (INH) in the presence of Rifampicin (RIF) in tablets and syrups is described. The method is based on the oxidation of INH by a known excess of copper (II) ion and the back titration of unreacted copper (II) ion potentiometrically with ascorbic acid using a lab-made Copper Based Mercury Film Electrode (CBMFE). The titration conditions have been optimized for the determination of 1.0-10.0 mg of INH in pure and dosage forms. The precision and accuracy of the method have been assessed by the application of lack-of-fit test and other statistical methods. Interference was not caused by RIF and other excipients present in dosage forms. Application of the method for INH assay in tablets and syrups was validated by comparison of the results of proposed method with that of the British Pharmacopoeia (BP) method using F- and t- statistical tests of significance.

• Journal of Plant Biology
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• v.2 no.1
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• pp.35-42
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• 1959

The cuttings and apical portion of stein in sweet potato were growlh under artificial light and specific photoperied and temperature. Though the plant growth was poor under insufficient light intensity of artificial light, the tuber formations were induced at long light period (16L+8D) and not induced at short light period (8L+16D) and low temperature of darkparied. The determinative factor for tuber formation of sweet potato seems to be a stimulation which has intimate relationship with specific photoperiod and temperature and no direct relation with the growth of plant body and light intensity. The root pattern of inductive state for tubers and non-inductive state were different distinctly, the former were silky and slender, the latter were branchy, and stout appearence. This different root pattern must be due also to the specific photoperiod and temperature and may have any relationship with the stimulation for tuber formation from the point of auxin physiology etc.