Medicinal Plants Classification Biosynthesis and ... - Index of

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Management of Diabetes with Diet and Plant-Derived Drugs [45] McCarty, MF. Nutraceutical resources for diabetes prevention - An update. Medical Hypotheses, 2005, 64(1), 151-8. [46] Zheng, YN; Liu, KY; Jia, GY; Li, HP; Han, LK; Yoshiyuki, K. Effect of hot-water extract of coffee seeds on postprandial blood glucose concentration in rats. Chinese Pharmaceutical Journal, 2007, 42(1). [47] Lifschitz, CH; Grusak, MA; Butte, NF. Carbohydrate digestion in humans from a βglucan-enriched barley is reduced. Journal of Nutrition, 2002, 132(9), 2593-6. [48] Ghallas, LA; Hanna, LM; Tapozada, ST; El-Shebini, SM. Some complementary hypoglycemic supplements from grains and legumes for the management of type 2 diabetes mellitus. Journal of Medical Sciences, 2008, 8(2), 102-10. [49] Shobana, S; Sreerama, YN; Malleshi, NG. Composition and enzyme inhibitory properties of finger millet (Eleusine coracana L.) seed coat phenolics: Mode of inhibition of α-glucosidase and pancreatic amylase. Food Chemistry, 2009, 115, 1268- 1273. [50] Cheng, H; Huang, H; Chang, C; Tsai, C; Chou, C. A Cell-Based Screening Identifies Compounds from the Stem of Momordica charantia that Overcome Insulin Resistance and Activate AMP-Activated Protein Kinase. Journal of Agricultural and Food Chemistry, 2008, 56(16), 6835-43. [51] Funke, I; Melzig, MF. Traditionally used plants in diabetes therapy - phytotherapeutics as inhibitors of α -amylase activity. Brazilian Journal of Pharmacognosy, 2006, 16, 1-5. [52] Correia, RTP; McCue, P; Vattem, DA; Magalhaes, MMA; Macedo, GR; Shetty, K. Amylase and Helicobacter pylori inhibition by phenolic extracts of pineapple wastes bioprocessed by Rhizopus oligosporus. Journal of Food Biochemistry, 2004, 28(5), 419-34. [53] Kim, YM; Jeong, YK; Wang, MH; Lee, WY; Rhee, HI. Inhibitory effect of pine extract on α-glucosidase activity and postprandial hyperglycemia. Nutrition, 2005, 21(6), 756-61. [54] Tsujita, T; Takaku, T; Suzuki, T. Chestnut astringent skin extract, an alpha-amylase inhibitor, retards carbohydrate absorption in rats and humans. Journal of Nutritional Science and Vitaminology (Tokyo), 2008 Feb., 54(1), 82-8. [55] Tchinda, AT; Tchuendem, MH; Khan, SN; Omar, I; Ngandeu, F; Nkeng, PEA; et al. Antioxidant activity of the crude extract of the fruits of Pycnanthus angolensis and αglucosidase inhibitory activity of its constituents. Pharmacologyonline, 2008, 1, 422-31. [56] Somani, R; Kasture, S; Singhai, AK. Antidiabetic potential of Butea monosperma in rats. Fitoterapia, 2006, 77(2), 86-90. [57] Shirosaki, M; Koyama, T; Yazawa, K. Anti-hyperglycemic activity of kiwifruit leaf (Actinidia deliciosa) in mice. Bioscience, Biotechnology and Biochemistry, 2008, 72(4), 1099-102. [58] Shinde, J; Taldone, T; Barletta, M; Kunaparaju, N; Hu, B; Kumar, S; et al. Alphaglucosidase inhibitory activity of Syzygium cumini (Linn.) Skeels seed kernel in vitro and in Goto-Kakizaki (GK) rats. Carbohydrate Research, 2008 May 19, 343(7), 1278-81. 185
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BIOTECHNOLOGY IN AGRICULTURE, INDUS
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Industrial Biotechnology Shara L. A
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Copyright © 2009 by Nova Science P
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viii Contents Chapter 8 Pharmacolog
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x Alejandro Varela and Jasiah Ibañ
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xii Alejandro Varela and Jasiah Iba
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xiv Alejandro Varela and Jasiah Iba
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In: Medicinal Plants: Classificatio
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Biological Effects of -Carotene acy
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Biological Effects of -Carotene cry
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Biological Effects of -Carotene ris
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Biological Effects of -Carotene Whe
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Biological Effects of -Carotene fla
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Biological Effects of -Carotene Pre
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Biological Effects of -Carotene A (
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Biological Effects of -Carotene As
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Biological Effects of -Carotene car
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Biological Effects of -Carotene res
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Biological Effects of -Carotene the
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Biological Effects of -Carotene cat
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Biological Effects of -Carotene mos
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Biological Effects of -Carotene dia
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Biological Effects of -Carotene veg
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Biological Effects of -Carotene .Su
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Biological Effects of -Carotene Bat
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Biological Effects of -Carotene Dah
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Biological Effects of -Carotene Hal
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Biological Effects of -Carotene Kva
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Biological Effects of -Carotene Osh
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Biological Effects of -Carotene San
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Biological Effects of -Carotene Van
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50 Gustavo J. Martínez, Mara Sato
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58 [2] Gustavo J. Martínez, Mara S
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Huperzia saururus (Lam.) Trevis. Mi
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PNEUMONOLOGY AND INFECTIOUS DISEASE
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98 Aracely E. Chávez-Piña and And
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100 Aracely E. Chávez-Piña and An
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118 HO HO HO HO HO HO OH OH M e Me
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120 Me Me OH Me O OH O O OH H Me OH
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122 HO HO HO Aracely E. Chávez-Pi
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Page 221 and 222: 204 Chien-Yi Chen Ligusticum chuanx
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236 S.M.M. Vasconcelos, J.E.R. Hon
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244 Sônia Sin Singer Brugiolo, Luc
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256 C.W. Huck and G.K. Bonn Keyword
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258 C.W. Huck and G.K. Bonn No addi
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260 C.W. Huck and G.K. Bonn The rob
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262 C.W. Huck and G.K. Bonn Validat
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264 Naphthodianthrones C.W. Huck an
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266 C.W. Huck and G.K. Bonn Figure
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268 C.W. Huck and G.K. Bonn Figure
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270 C.W. Huck and G.K. Bonn hierarc
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272 C.W. Huck and G.K. Bonn [17] Hu
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In: Medicinal Plants Classification
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What is the Future of Phytotherapy?
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In: Medicinal Plants Classification
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Quality Control of Polysaccharides
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Origins Targets Neisseria meningiti
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316 Philippe N. Okusa, Caroline Ste
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320 2.7. General Toxicity Tests Phi
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338 age-related macular degeneratio
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340 B lymphocytes, 7 babies, 60, 62
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342 cell surface, 229 cellular adhe
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344 cultivation, 75, 76, 83, 85, 14
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346 embryonic stem cells, 47 emotio
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348 gas, xiii, 21, 104, 131, 145, 1
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350 high-performance liquid chromat
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352 institutions, 84 instruments, 2
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354 lung, ix, 1, 6, 16, 17, 22, 23,
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356 mucosa, x, 2, 19, 97, 98, 99, 1
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358 oxidative, 4, 8, 9, 10, 12, 13,
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360 polyunsaturated fatty acids, 10
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362 Reserpine, 328 reservation, 143
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364 SPT, 135 squamous cell carcinom
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366 transcription, 8, 35, 152 trans
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