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Background: Atractylodes japonica Koidz. and Atractylodes macrocephala Koidz. belong to the family (Asteraceae). Their rhizomes, called white Atractylodes rhizomes, are used in traditional medicine. To address some issues with their cultivation, we recently developed eight hybrid cultivars by interspecific hybridization of A. japonica and A. macrocephala. This study was conducted to screen the hybrid cultivars that have high amounts of active ingredients and yield ability.

Methods and Results: Experiments were conducted using the eight hybrid cultivars and A. macrocephala (control cultivar) in the experimental field of the department of Herbal Crop Research located in Eumseong, South Korea. We investigated the growth characteristics of the aerial and underground parts. Among the cultivars, ‘Sanwon’ had the highest rhizome dry weight (53.8 g/plant), followed by ‘Dachul’ (50.0 g/plant). In addition, the content of atractylenolide I, II, III and total active ingredients were investigated using high-performance liquid chromatography. Compared with A. macrocephala, most of the inter-specific hybrid cultivars had a higher content of active ingredients and yield ability.

Conclusions: Through study, we established the superior quality of Atractylodes inter-specific hybrid cultivars. In particularly, it was found that ‘Dachul’ may be grown as a superior cultivar, with high amount of active ingredients as well as yield ability.

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기사명 저자명 페이지 원문 목차
Growth and Ginsenoside Content in Different Parts of Ginseng Sprouts Depending on Harvest Time = 수확시기에 따른 새싹삼의 부위별 생육 및 Ginsenoside 함량 변화 In Bae Jang, Jin Yu, Su Jeoung Suh, In Bok Jang, Ki Beam Kwon p.205-213

고려인삼 열매채취시기에 따른 열매형질 및 진세노사이드 함량 변화 = Changes of Berry Characteristics and Ginsenoside Content Depending on Collection Time of Korean Ginseng Berry 이은섭, 김연주, 안영남, 한정아, 조창휘 p.214-219

삽주 육성품종 간 생육특성 및 유효성분 분석 = Comparison of Growth Characteristics and Active Ingredients in Atractylodes Inter-Specific Hybrid Cultivars 정진태, 이희정, 이정훈, 홍충의, 이윤지, 정양선, 이대영, 이승은, 장재기, 하보근, 박춘근 p.220-226

나트륨 농도가 2년생 인삼의 생육,생리장해 및 상토의 화학적 특성에 미치는 영향 = Influence of Sodium Concentrations on Growth, Physiological Disorder Symptoms, and Bed Soil Chemical Properties of 2-Year-Old Ginseng 유진, 서수정, 장인배, 장인복, 문지원, 권기범, 이성우 p.240-247

미네랄 및 호르몬 제제 처리에 따른 당귀의 생육특성 및 Decursin, Decursinol Angelate 함량 변화 = Changes in the Growth Characteristics and the Content of Decursin and Decursinol angelate in Angelica gigas Nakai by Mineral and Hormonal Agent Treatment 이상훈, 윤형묵, 구성철, 이우문, 장재기, 구현정, 장광진, 김연복 p.227-232

심재, 변재, 형성층 및 사부를 포함한 뽕나무 심부 고온추출물의 항염증 활성 = Anti-Inflammatory Activity of High Temperature Extract from the Central Part Including Heartwood, Sapwood, Cambiun, and Phloem in Morus alba L. 노종현, 강병만, 정원석 p.233-239

토양 훈증 및 녹비작물 재배가 인삼의 연작장해 경감에 미치는 영향 = Effect of Soil Fumigation and Maize Cultivation on Reduction of Replant Failure in Ginseng 이성우, 이승호, 서문원, 장인복, 장인배, 유진, 문지원, 서수정 p.248-253

참고문헌 (30건) : 자료제공( 네이버학술정보 )

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번호 참고문헌 국회도서관 소장유무
1 Chen LG, Jan YS, Tsai PW, Norimoto H, Michihara S, Murayama C and Wang CC. (2016). Anti-inflammatory and antinociceptive constituents of Atractylodes Japonica Koidzumi. Journal of Agricultural and Food Chemistry. 64:2254-2262. 미소장
2 Cheng Y, Mai JY, Hou TL, Ping J and Chen JJ. (2016). Antiviral activities of atractylon from Atractylodis rhizoma. Molecular Medicine Reports. 14:3704-3710. 미소장
3 Cho JH, Kim YW, Park CG, Bang KH and Seong NS. (2001a). Genetic variation of Atractylodes macrocephala in morphological traits and Phytophthora root rot resistance. Korean Journal of Breeding Science. 33:191-198. 미소장
4 Cho JH, Kim YW, Park CG, Bang KH and Seong NS. (2001b). Occurrence of phytophthora root rot of Atractylodes macrocephala in field contitions. Korean Journal of Medicinal Crop Science. 9:211-219. 미소장
5 Endo K, Taguchi T, Taguchi F, Hikino H, Yamahara J and Fujimura H. (1979). Antiinflammatory principles of Atractylodes rhizomes. Chemical and Pharmaceutical Bulletin. 27:2954-2958. 미소장
6 Forsythe LK, Wallace JMW and Livingstone BE. (2008). Obesity and inflammation: The effects of weight loss. Nutrition Research Reviews. 21:117-133. 미소장
7 Fukuda, T, Nakajima J, Aragane M, Yoshizawa M, Suzuki Y and Shimizu T. (1995). Studies of cultivation of Atractylodes ovata Part 3. Hybridization and the change of morphological characteristics caused by the hybridization. Natural Medicines. 49:431-437. 미소장
8 Gu HA, Kim HS, Kim MJ, Yu ER, Joe GJ, Jang JD, Kim B and Park SN. (2013). Characterization and transdermal delivery of ethosomes loaded with Eucommia ulmoides extract. Applied Chemistry for Engineering. 24:639-644. 미소장
9 Hwang JM, Tseng TH, Hsieh YS, Chou FP, Wang CJ and Chu CY. (1996). Inhibitory effect of atractylon on tert-butyl hydroperoxide induced DNA damage and hepatic toxicity in rat hepatocytes. Archives of Toxicology. 70:640-644. 미소장
10 Kang BK, Kim K, Kim MJ, Bark SW, Pak WM, Kim BR, Ahn NK, Choi YU and Ahn DH. (2014). Anti-inflammatory activity of an ethanol extract of Laminaria japonica root on lipopolysaccharide-induced inflammatory responses in RAW 264.7 cells. Korean Journal of Food Science and Technology. 46:729-733. 미소장
11 Kim JH, Lee GS, Choi GY, Hwang SY, Kim HJ, Jeong SI and Ju YS. (2009). A Study on External.internal morphology and pattern analysis of Atractylodes rhizomes. Korean Journal of Herbology. 24:77-85. 미소장
12 Kim KS, Park CG, Kim DH, Park SH and Choung MG. (2006). Evaluation of sesquiterpenoids content and growth characters in clonal lines from a cross between Atractylodes japonica Koidz. ex Kitam. and A. macrocephala Koidz. Korean Journal of Medicinal Crop Science. 14:107-112. 미소장
13 Kim YO, Lee SW, Sohn SH, Kim SY, Oh MS and Kim SK. (2012). Anti-inflammatory effects of water extract of Eucommia ulmoides oliver on the LPS-induced RAW 264.7 cells. Korean Journal of Medicinal Crop Science. 20:381-386. 미소장
14 Lee JH, Kim YK, Hong SP and Kim CS. (2002). Studie of taxonomic origins of atractylodis rhizoma alba and atractylodis rhizoma. Korean Journal of Oriental Medicine. 8:55-63. 미소장
15 Lee YW, Kim PH, Lee WH and Hirani AA. (2010). Interleukin-4, oxidative stress, vascular inflammation and atherosclerosis. Biomolecules and Therapeutics. 18:135-144. 미소장
16 Li CQ, He LC and Jin JQ. (2007). Atractylenolide I and atractylenolide III inhibit lipopolysaccharide-induced TNF-${\alpha}$ and NO production in macrophages. Phytotherapy Research. 21:347-353. 미소장
17 Li CQ, He LC, Dong HY and Jin JQ. (2007). Screening for the anti-inflammatory activity of fractions and compounds from Atractylodes macrocephala koidz. Journal of Ethnopharmacology. 114:212-217. 미소장
18 Lim H, Lee HY, Kim JW, Kim YS and Kim HP. (2012). Effects of the rhizomes of Atractylodes japonica and atractylenolide I on allergic response and experimental atopic dermatitis. Archives of Pharmacal Research. 35:2007-2012. 미소장
19 Matsuda H, Li YH, Taniguchi K, Yamahara J and Tamai Y. (1991). Imaging analysis of antiulcer action and the active constituent of atractylodis rhizoma. Journal of the Pharmaceutical Society of Japan. 111:36-39. 미소장
20 Ministry of Agriculture, Food and Rural Affairs(MAFRA). (2016). Final results of the 2015 census of agriculture, forestry and fisheries. Ministry of Agriculture, Food and Rural Affairs. Sejong, Korea. p.335. 미소장
21 Ministry of Food and Drug Safety(MFDS). (2000). The Korea pharmacopoeia. Ministry of Food and Drug Safety. Seoul, Korea. p.773-774. 미소장
22 Peng HS, Yuan QJ, Li QQ and Huang LQ. (2012). Molecular systematics of genus Atractylodes(compositae, cardueae): Evidence from internal transcribed spacer(ITS) and trnL-F sequences. International Journal of Molecular Sciences. 13:14623-14633. 미소장
23 Satoh K, Nagai F, Ushiyama K and Kano I. (1996). Specific inhibition of $Na^+$,$K^+$-ATPase activity by atractylon, a major component of byaku-jutsu, by interaction with enzyme in the E2 state. Biochemical Pharmacology. 51:339-343. 미소장
24 Takeda O, Mike E, Morita M, Okada M, Lu Y, He HS and He S. (1994). Variation of essential oil components of Atractylodes lancea growing in Mt. Maoshan area in Jiangsu province, China. Natural Medicines. 48:11-17. 미소장
25 Wang C, Duan H and He L. (2009). Inhibitory effect of atractylenolide I on angiogenesis in chronic inflammation in vivo and in vitro. European Journal of Pharmacology. 612:143-152. 미소장
26 Wang CC, Chen LG and Yang LL. (2002). Cytotoxic activity of sesquiterpenoids from Atractylodes Ovata on leukemia cell lines. Planta Medica. 68:204-208. 미소장
27 Wang H and Cho CH. (2010). Effect of NF-${\kappa}B$ signaling on apoptosis in chronic inflammation-associated carcinogenesis. Current Cancer Drug Targets. 10:593-599. 미소장
28 Wang KT, Chen LG, Wu CH, Chang CC and Wang CC. (2011). Gastroprotective activity of atractylenolide III from Atractylodes ovata on ethanol-induced gastric ulcer in vitro and in vivo. Journal of Pharmacy and Pharmacology. 62:381-388. 미소장
29 Ye Y, Wang H, Chu JH, Chou GX, Chen SB, Mo H, Fong WF and Yu ZL. (2011). Atractylenolide II induces G1 cell-cycle arrest and apoptosis in B16 melanoma cells. Journal of Ethnopharmacology. 136:279-282. 미소장
30 Yun BR, Weon JB, Lee BH, Lee JW, Eom MR and Ma CJ. (2013). Quantitative analysis of atractylenolides I and III in Atractylodes japonica. Korean Journal of Pharmacognosy. 44:53-59. 미소장

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