• Title/Summary/Keyword: rhodiola sachalinensis

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Effects of Ethanol Extract of the Rhodiola Sachalinensis for Anti-oxidation and Blood Pressure and Skeletal Muscles Contractility in Rat (고산흥경천 에탄올 추출물의 항산화작용과 쥐의 혈압 및 골격근 수축성에 미치는 영향)

  • Jin, Yinzhe;Cheng, Yu-dong;Lee, Kwang-Jin;Jung, Yong-An;Row, Kyung-Ho
    • KSBB Journal
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    • v.26 no.3
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    • pp.211-216
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    • 2011
  • To study the effects of ethanol extract of the Rhodiola Sachalinensis on the anti-oxidation and blood pressure and skeletal muscles contractility in rats. The ethanol extracts and fractions of Rhodiola Sachalinensis were determinated the anti-oxidation effects by DPPH(1,1-dipenyl-2-picrylhydrazyl) method and comparing with the BHA (Butylated hydroxyanisole) and AA(Ascorbic acid). The gastrocnemius and soleus muscle contractility were observed by stimulating the sciatic nerve with electricity after affusing stomach with ethanol extract of the 200 mg/kg dosage of Rhodiola Sachalinensis for 4 weeks. The ethanol extract of the Rhodiola Sachalinensis could shorten latent period, increase maximal contractive extent and time and relaxative time at the twitch and complete tetanus of gastrocnemius and soleus muscles. The ethanol extract of the Rhodiola Sachalinensis shows high anti-oxidation effect and can enhance skeletal muscles contractility in rats.

Physicochemical Properties and Antioxidative Activity of Fermented Rhodiola sachalinensis and Korean Red Ginseng Mixture by Lactobacillus acidophilus (Lactobacillus acidophilus을 이용한 홍경천과 홍삼 혼합 발효물의 이화학적 특성 및 항산화 활성)

  • Sung, Su-Kyung;Rhee, Young-Kyung;Cho, Chang-Won;Kim, Young-Chan;Lee, OK-Hwan;Hong, Hee-Do
    • The Korean Journal of Food And Nutrition
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    • v.26 no.3
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    • pp.358-365
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    • 2013
  • The study was conducted to investigate the condition for mixed fermentation of Rhodilola sachalinensis with red ginseng using Lactobacillus acidophillus 128 and the changes of physicochemical properties and antioxidant activities before and after the lactic acid fermentation was examined. In the single fermentation of Rhodiola sachalinensis extract, the pH and titratable acidity rarely changed, and the number of lactic acid bacteria decreased greatly. On the other hand, in the lactic acid fermentation of Rhodiola sachalinensis-red ginseng mixed extract of 50% red ginseng content, the pH decreased, whereas the titratable acidity and the number of lactic acid bacteria increased. The solid content of optimal mixed extract for lactic acid fermentation was 0.5%. Sugar content decreased during fermentation, but total phenolic compounds tended to increase during fermentation. The salidroside and p-tyrosol content of the initial Rhodiola sachalinensis-red ginseng mixed extract was 419.5 mg% and 60.1 mg%, respectively; after fermentation, the salidroside content after lactic acid fermentation decreased greatly to 81.8 mg%, and the amount of p-tyrosol increased greatly to 324.9 mg%. The DPPH scavenging activity of Rhodiola sachalinensis-red ginseng mixed fermentate was 78.1% at 0.1% concentration, showing a tendency to increase as compared to 50.3% of Rhodiola sachalinensis-red ginseng mixed extract before the fermentation (p<0.05); it was a higher antioxidant activity as compared to the single fermentation of Rhodiola sachalinensis or red ginseng.

Effect of Rhodiola Sachalinensis Administration and Endurance Exercise on Insulin Sensitivity and Expression of Proteins Related with Glucose Transport in Skeletal Muscle of Obese Bucker Rat (홍경천 섭취와 운동수행이 비만 쥐의 인슐린 민감도와 골격근내 당수송 관련 단백질 발현에 미치는 영향)

  • Oh Jae-Keun;Shin Young-Oh;Jung Hee-Jung;Lee Jung-Eun
    • Journal of Nutrition and Health
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    • v.39 no.4
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    • pp.323-330
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    • 2006
  • Peripheral insulin resistance in obese/type II diabetes animals results from an impairment of insulin-stimulated glucose uptake into skeletal muscle. Insulin stimulate the translocation of GLUT4 from intracellular location to the plasma membrane. Soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs) is implicated in mediation of fusion of GLUT4-containing vesicle with the plasma membrane. Present study investigated regulatory effects of Rhodiola sachalinensis administration and exercise training on the expression of GLUT4 protein and SNAREs protein in skeletal muscles of obese Zucker rats. Experimental animals were randomly assigned into one of five groups ; lean control(LN), obese control(OB), exercise-treated(EXE), Rhodiola sachalinensis-treated(Rho), combine of Rho & EXE (Rho-EXE). All animals of exercise training (EXE, Rho-EXE) performed treadmill running for 8 weeks, and animals of Rho groups (Rho, Rho-EXE) were dosed daily by gastric gavage during the same period. After experiment, blood were taken for analyses of glucose, insulin, and lipids levels. Mitochondrial oxidative enzyme (citrate synthase, CS ; $\beta$-hydroxyacyl-CoA dehydrogenase, $\beta$-HAD) activity were analysed. Skeletal muscles were dissected out for analyses of proteins (GLUT4, VAMP2, syntaxin4, SNAP23). Results are as follows. Exercise and/or Rhodiola sachalinensis administration significantly reduced body weight and improved blood lipids (TG, FFA), and increased insulin sensitivity. Endurance exercise significantly increased the activity of mitochondrial enzymes and the expression of GLUT4 protein, however, administration of Rhodiola sachalinensis did not affect them. The effect of exercise and/or Rhodiola sachalinensis administration on the expression of SNARE proteins was unclear. Our study suggested that improvement insulin sensitivity by exercise and/or Rhodiola sachalinensis administration in obese Zucker rats is independent of expression of SNARE proteins.

Increase Effect of Anticancer Activities on Rhodiola sachalinensis A. Bor by the Change of Extraction Process (추출 공정 다변화를 통한 홍경천의 항암활성 증진효과)

  • Kim, Cheol-Hee;Kim, Hyo-Sung;Kwon, Min-Chul;Bae, Geun-Jung;Ahn, Jup-Hee;Lee, Hak-Ju;Kang, Ha-Young;Lee, Hyeon-Yong
    • Korean Journal of Medicinal Crop Science
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    • v.14 no.6
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    • pp.317-321
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    • 2006
  • This study was performed to compare effect of anticancer activities on Rhodiola sachalinensis by ultrasonifi-cation process and solvent. Compared the yield to the water extracts (WE), wafer extracts with ultrasonification (WEU) at60, loot and ethyl alcohol extracts (EE), ethyl alcohol extracts with ultrasonification (EEU) at 60 ${\circ}$C from Rhodiola sachalinensis. Experimental studies were progressed through the anticancer activities such as cell cytotoxicity, inhibition activities of cell growth. The cell cytotoxicity using human embryonic kidney cell (HEK293) was showed cytotoxicity of below 26.26%by extracts of Rhodiola sachalinensis in 1.0 mg/ml concentration, The anticancer activities were increased in over 70% by extracts of Rhodiola sachalinensis in A549, AGS, Hep3B and MCF-7 cells. From the results, the extract Rhodiola sachalinensis were showed useful anticancer activities.

Antioxidative Effects of the Rhizome of Rhodiola Sachalinensis (참돌꽃 근경의 항산화작용)

  • Ryu, Kwang-Youl;Kang, Won-Seek;Kim, Young-Ho;Jang, Hae-Dong;Hong, Jin-Tae;Yoo, Hwan-Soo;Yun, Yeo-Pyo
    • YAKHAK HOEJI
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    • v.42 no.3
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    • pp.312-318
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    • 1998
  • Ihe purpose of this study was to determine the antioxidative effects of Rhodiola sachalinensis. Rhodiola methanol extract was fractionated sequentially with dichlorometha ne and butanol. Each Rhodiola fraction (water, MeOH, BuOH and $CH_2Cl_2$ fractions) showed the potent superoxide dismutase (SOD) activity, and had inhibitory effects on peroxide value of linoleic acid ($40{\sim}57%$) and lipid peroxidation ($47{\sim}70%$). In $Fe^{2+}$/ascorbate system-induced rat liver microsome. Rhodiola methanol extract also recovered carbon tetrachloride-induced decrease in SOD by 42% and catalase activities by 50%, and had inhibitory effects (54%) on carbon tetrachloride-induced lipid peroxidation in rat liver microsome. These results suggest that Rhodiola sachalinensis has the antioxidative effects.

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Antioxidative, Antimutagenic and Cytotoxic Effects of Rhodiola sachalinensis Extract (홍경천 추출물의 항산화성, 항돌연변이성 및 세포독성 효과)

  • 최승필;이득식;함승식
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.32 no.2
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    • pp.211-216
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    • 2003
  • This study was carried out to determine the antioxidative, antimutagenic, and anticancer effects of Rhodiola sachalinensis root using 1,1-diphenyl-2-picrylhydrazyl (DPPH) free radical donating method, Ames test and cytotoxicity, respectively. Rhodiola sachalinenis root were extracted with ethanol and then further fractionated to n-hexane, chloroform, ethyl acetate (EtOAc), butanol and water, stepwise. Among five fractions, the Etohc fractions showed the highest electron donating activities (14.3 $\mu$g/mL). The inhibition rate of ethanol extract (200$\mu$g/plate) of Rhodiola sachalinensis root in the S. typhimurium TA100 strain showed 89.1% inhibition against the mutagenesis induced by MNNG. In addition, the suppression of EtOAc fractions with same concentration of Rhodiola sachalinensis root in the S. typhimurium TA98 and TAI00 strains showed 89.7% and 91.5% inhibition against 4NQO, respectively. The suppressions under the same condition against B($\alpha$)P and Trp-P-1 in the TA98 and TA100 strains were 94.2% and 95.7%, and 92.3% and 93.8%, respectively. The cytotoxic effects of Rhodiola sachalinensis root against the cell lines with human lung carcinoma (A549), human hepatocellular carcinoma (HepG2), human gastric carcinoma (AGS) and human breast adenocarcinoma (MCF-7) were inhibited with the increase of the extract concentration. The treatment of 1.0 mg/mL Rhodiola sachalinensis root of EtOAc fraction showed strong cytotoxicities of 90.5%, 81.5%, 92.2% and 82.6% against A549, HepG2, AGS and MCF-7, respectively.

Separation and Performance lest of Wnitening Agent in Rhodiola Sachalinensis (홍경천에 포함된 미백성분의 분리 및 성능검사)

  • 최두영;안소영;이승기;한정선;김은철;이향복;신정현;김은기;노경호
    • KSBB Journal
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    • v.19 no.3
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    • pp.169-173
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    • 2004
  • The Rhodiola Sachalinensis 5 g were mixed and extracted with methanol 150 $m\ell$ at the room temperature for 12 h. The effluents were collected and grouped into the two. Un this experimental condition, the mobile phase composition were linearly changed as follows; water/methanol : 90/10 - 30/70 (vol. %, for 5 min), 30/70 - 10/90 (vol. %, for 15 min) and an analytical column (3.9 ${\times}$ 25 em, 15 $\mu\textrm{m}$ particle size, and 300 ${\AA}$ pore size) was utilized. The performance of the extracted Rhodiola Sachalinensis as a whitening agent was not favorable, so it classifies the Rhodiola Sachalinensis extractions with two fractions and collects each fraction for whitening agent assay. For the in-vivo melanin production ratio assay that used melanin-a cell in 10 ppm concentration, it was 58.6%, the first fraction of the effluents collected between 1.0 and 4.0 min, while it was 60% between 10.4 and 17.6 min for the second fraction, which were more efficient than that of arbutin, 45.6%.

Flavonoids from the Roots of Rhodiola sachalinensis (홍경천의 플라보노이드 화합물)

  • Lee, Yeon-Ah;Cho, Soo-Min;Lee, Min-Won
    • Korean Journal of Pharmacognosy
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    • v.33 no.2 s.129
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    • pp.116-119
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    • 2002
  • Chemical investigation of the roots of Rhodiola sachalinensis A. Bor. (Crassulaceae) has led to the isolation of four flavonoids. Structures of these compounds were identified as $kaempferol-3-O-{\beta}-D-glucopyranoside$ (1), $kaempferol-3-O-{\beta}-D-sophoroside$ (2), $herbacetin-3-O-{\beta}-D-glucopyranoside$ (3) and $herbacetin-7-O-{\beta}-D-glucopyranosyl(1{\rightarrow}3)-{\alpha}-L-rhamnopyranoside$ (4) by the analysis of spectroscopic evidences and comparision with the data of authentic samples.

Antioxidative Phenolic Compounds from the Roots of Rhodiola sachalinensis A. Bor

  • Lee, Min-Won;Lee, Yeon-Ah;Park, Hyang-Mi;Toh, Sang-Hak;Lee, Eun-Joo;Jang, Hae-Dong;Kim, Young-Ho
    • Archives of Pharmacal Research
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    • v.23 no.5
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    • pp.455-458
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    • 2000
  • The acetone extract of the roots of Rhodiola sachalinensis has furnished six phenolic compounds which exhibited significant scavenging effects against DPPH free radical. The structures of these compounds were identified and determined as gallic acid (1), (-)-epigallocatechin 3-O-gallate (2), kaempferol (3), kaempferol 7-O-$\alpha$ -L-rham nopyranoside (4), herbacetin 7-O-$\alpha$ -L-rhamnopyranoside, (5) and rhodiolinin (6) by physico-chemical and spectral evidences.

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