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NTIS 바로가기생명과학회지 = Journal of life science, v.27 no.12 = no.212, 2017년, pp.1500 - 1506
이커 (부산대학교 원예생명과학과) , 이미림 (부산대학교 바이오소재과학과) , 루쿼 (부산대학교 원예생명과학과) , 이매 (부산대학교 원예생명과학과) , 강점순 (부산대학교 원예생명과학과) , 최영현 (동의대학교 생화학과) , 김경미 ((주) 노바렉스) , 정재철 ((주) 노바렉스) , 황대연 (부산대학교 바이오소재과학과) , 최영환 (부산대학교 원예생명과학과)
Plants are reservoirs of naturally occurring chemical compounds and of structurally diverse bioactive molecules. The aim of this investigation was to screen for the presence of phytochemicals responsible for the lipolysis activity in mulberry (Morus alba) leaves, which are important in traditional A...
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Asano, N., Nash, R. J., Molyneux, R. J. and Fleet, G. W. J. 2000. Sugar-mimic glycosidase inhibitors: Natural occurrence, biological activity and prospects for therapeutic application. Tetrahedron Asymmetry 11, 1645-1680.
Awad, A. B., Gan, Y. and Fink, C. S. 2000. Effect of ${\beta}$ -sitosterol, a plant sterol, on growth, protein phosphatase 2A, and phospholipase D in LNCaP cells. Nutr. Cancer 36, 74-78.
Bradford, P. G. and Awad, A. B. 2007. Phytosterols as anticancer compounds. Mol. Nutr. Food Res. 51, 161-170.
Chauhan, S., Devi, U., Kumar, V. R., Kumar, V., Anwar, F. and Kaithwas, G. 2015. Dual inhibition of arachidonic acid pathway by mulberry leaf extract. Inflammopharmacology 23, 65-70.
Choi, J. N., Choi, Y. H., Lee, J. M., Noh, I. C., Park, J. W., Choi, W. S. and Choi, J. H. 2012. Anti-inflammatory effects of ${\beta}$ -sitosterol- ${\beta}$ -D-glucoside from Trachelospermum jasminoides (Apocynaceae) in lipopolysaccharide-stimulated RAW 264.7 murine macrophages. Nat. Prod. Res. 26, 2340-2343.
Choi, S. J., Jeon, H., Lee, C. U., Yoon, S. H., Bae, S. K., Chin, Y. W. and Yoon, K. D. 2015. Isolation and development of quantification method for cyanidin-3-glucoside and cyanidin-3-rutinoside in mulberry fruit by high-performance countercurrent chromatography and high-performance liquid chromatography. Nat. Prod. Sci. 21, 20-24.
Evans, S. V., Fellows, L. E., Shing, T. K. M. and Fleet, G. W. J. 1985. Glycosidase inhibition by plant alkaloids which are structural analogues of monosaccharides. Phytochemistry 24, 1953-1955.
Fukai, T., Satoh, K., Nomura, T. and Sakagami, H. 2003. Antinephritis and radical scavenging activity of prenylflavonoids. Fitoterapia 74, 720-724.
Ho, J. N., Kim, O. K., Nam, D. E., Jun, W. and Lee, J. 2014. Pycnogenol supplementation promotes lipolysis via activation of cAMP-dependent PKA in ob/ob mice and primary-cultured adipocytes. J. Nutr. Sci. Vitaminol. 60, 429-435.
Hui, W. H., Li, M. M. and Wong, K. M. 1976. A New compound, 21-a-Hydroxy friedel-4,23-En-3-one and other triterpenoids from Phyllanthus reticulantus. Phytochemistry 15, 797-798.
Ivorra, M. D., D'Ocon, M. P., Paya, M. and Villar, A. 1988. Antihyperglycemic and insulin-releasing effects of ${\beta}$ -sitosterol-3- ${\beta}$ -D-glucoside and its aglycone, ${\beta}$ -sitosterol. Arch. Int. Pharmacodyn. Ther. 296, 224-231.
Jeong, J. Y., Jo, Y. H., Kim, S. B., Liu, Q., Lee, J. W., Mo, E. J., Lee, K. Y., Hwang, B. Y. and Lee, M. K. 2015. Pancreatic lipase inhibitory constituents from Morus alba leaves and optimization for extraction conditions. Bioorg. Med. Chem. Lett. 25, 2269-2274.
Jimenez-Escrig, A., Santos-Hidalgo, A. B. and Saura-Calixto, F. 2006. Common sources and estimated intake of plant sterols in the Spanish diet. J. Agric. Food Chem. 54, 3462-3471.
Kelkar, S. M., Bapat, V. A., Ganapathi, T. R., Kaklig, G. S., Rao, P. S. and Heble, M. R. 1996. Determination of hypoglycemic activity in Morus indica L. (mulberry) shoot cultures. Curr. Sci. 71, 71-72.
Khan, M. U. N. M. and Hossain, S. Md. 2015. Scopoletin and ${\beta}$ -sitosterol glucoside from roots of Ipomoea digitata. J. Pharmacog. Phytochem. 4, 5-7.
Kobayashi, M., Tsuru, R., Todo, K. and Mitsuhashi, H. 1973. Marine sterols-II : Asterosterol, a new C26 sterol from Asterias amurensis lutken. Tetrahedron 29, 1193-1194.
Moreau, R. A., Whitaker, B. D. and Hicks, K. B. 2002. Phytosterols, phytostanols, and their conjugates in foods: Structural diversity, quantitative analysis, and health promoting uses. Prog. Lipid Res. 41, 457-500.
Nair, P. P., Turjman, N., Kessie, G., Calkins, B., Goodman, G. T., Davidovitz, H. and Nimmagadda, G. 1984. Diet, nutrition intake, and metabolism in populations at high and low risk for colon cancer. Dietary cholesterol, ${\beta}$ -sitosterol, and stigmasterol. Am. J. Clin. Nutr. 40(4 Suppl), 927-930.
Nakagawa, K. 2013. Studies targeting ${\alpha}$ -glucosidase inhibition, antiangiogenic effects, and lipid modification regulation: background, evaluation, and challenges in the development of food ingredients for therapeutic purposes. Biosci. Biotechnol. Biochem. 77, 900-908.
Nomura, T. 1999. The chemistry and biosynthesis of isoprenylated flavonoids from moraceous plants. Pure Appl. Chem. 71, 1115-1118.
Pawlowska, A. M., Oleszek, W. and Braca, A. 2008. Qualiquantitative analyses of flavonoids of Morus nigra L. and Morus alba L. (Moraceae) fruits. J. Agric. Food Chem. 56, 3377-3380.
Piao, S. J., Chen, L. X., Kang, N. and Qiu, F. 2011. Simultaneous determination of five characteristic stilbene glycosides in root bark of Morus albus L. (Cortex Mori) using high-performance liquid chromatography. Phytochem. Anal. 22, 230-235.
Rubis, B., Paszel, A., Kaczmarek, M., Rudzinska, M., Jelen, H. and Rybczynska, M. 2008. Beneficial or harmful influence of phytosterols on human cells? Br. J. Nutr. 100, 1183-1191.
Ryan, E., Galvin, K., O'Connor, T. P., Maguire, A. R. and O'Brien, N. M. 2006. Fatty acid profile, tocopherol, squalene and phytosterol content of Brazil, pecan, pine, pistachio and cashew nuts. Int. J. Food Sci. Nutr. 57, 219-228.
Shirishkumar, D. A., Ashwini, V. M. and Prashant, D. A. 2014. Pharmacological, nutritional, and analytical aspects of ${\beta}$ -sitosterol: a review. Orient. Pharm. Exp. Med. 14, 193-211.
Tsuduki, T., Kikuchi, I., Kimura, T., Nakagawa, K. and Miyazawa, T. 2013. Intake of mulberry 1-deoxynojirimycin prevents diet-induced obesity through increases in adiponectin in mice. Food Chem. 139, 16-23.
Venkatesh, K. P. and Chauhan, S. J. 2008. Mulberry: Life enhancer. J. Med. Plants Res. 2, 271-278.
Watson, L. and Dallwitz, M. J. 2007. In The Families of Flowering Plants: Descriptions, Illustrations, Identification, and Information Retrieval, 1992 onward; June 1, 2007, version; http://delta-intkey.com.
Winchester, B. and Fleet, G. W. J. 1992. Amino-sugar glycosidase inhibitors: Versatile tools for glycobiologists. Glycobiology 2, 199-210.
Woyengo, T. A., Ramprasath, V. R. and Jones, P. J. H. 2009. Anticancer effects of phytosterols. Eur. J. Clin. Nutr. 63, 813-820.
Yang, Z. G., Matsuzaki, K., Takamatsu, S. and Kitanaka, S. 2011. Inhibitory effects of constituents from Morus alba var. multicaulis on differentiation of 3T3-L1 cells and nitric oxide production in RAW264.7 cells. Molecules 16, 6010-6022.
Zelova, H., Hanakova, Z., Cermakova, Z., Smejkal, K., Dall Acqua, S., Babula, P., Cvacka, J. and Hosek, J. 2014. Evaluation of anti-inflammatory activity of prenylated substances isolated from Morus alba and Morus nigra. J. Nat. Prod. 77, 1297-1303.
Zhao, J., Zhang, C. Y., Xu, D. M., Huang, G. Q., Xu, Y. L., Wang, Z. Y., Fang, S. D., Chen, Y. and Gu, Y. L. 1990. The antiatherogenic effects of components isolated from pollen typhae. Thromb. Res. 57, 957-966.
Zhao, M., Chen, C. C., Yang, S. Q. and Zhang, S. J. 2012. Chemical constituents from leaves of Morus alba Linn. Zhongchengyao 34, 1126-1131.
Zhao, S., Park, C. H., Li, X., Kim, Y. B., Yang, J., Sung, G. B., Park, N. I., Kim, S. and Park, S. U. 2015. Accumulation of rutin and betulinic acid and expression of phenylpropanoid and triterpenoid biosynthetic genes in mulberry (Morus alba L.). J. Agric. Food Chem. 63, 8622-8630.
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