Cuscuta chinensis

Bio activities found for some of the polysaccharides described in this chapter have been assigned to certain structural features. The antioxidant effect of the Cuscuta chinensis pectin was proposed to be caused by the presence of a glucobiose unit linked via a GalA unit on the RG-I polymer [53], but this structural feature was not found for the anti-oxidant polysaccharide from Tinospora cordifolia [78,79]. [Pg.96]

Cuscutic resinoside A (1 tetradecanoic acid, (115)-[[6-deoxy-3-(9-(6-deoxy-a-L-mannopyranosyl)-4-0-[(2/ ,3R)-3-hydroxy-2-niethyl-l-oxobutyl]-a-L-nianno-pyranosyl]oxy]-intramol. l,2 -ester) was obtained from the ethyl acetate-soluble fraction of a methanol extract prepared from the seeds of Cuscuta chinensis Lam. The purification of this compound employed a combination of column and preparative-scale HPLC. The structure was deduced from spectroscopic evidence and acid hydrolysis 14). The degradative process gave convolvuUnolic acid, nilic acid, and L-rhamnose. The sugar components were identified by GC analysis after being converted to their thiazolidine derivatives. This disaccharide has a unique macrocyclic lactone, which is placed between C-1 and C-2 of the first rhamnose moiety. [Pg.84]

Umehara K, Nemoto K, Ohkubo T, Miyase T, Degawa M, Noguchi H (2004) Isolation of a New 15-Membered Macrocyclic Glycolipid Lactone, Cuscutic Resinoside A from the Seeds of Cuscuta chinensis A Stimulator of Breast Cancer Cell Proliferation. Planta Med 70 299... [Pg.148]

Khaima SN, Gupta PC (1967) Structure of Muricatin. Phytochemistry 6 735 Miyahara K, Du XM, Watanabe M, Sugimura C, Yahara S, Nohara T (1996) Resin Glycosides XXIII. Two Novel Acylated Trisaccharides Related to Resin Glycoside from the Seeds of Cuscuta chinensis. Chem Pharm Bull 44 481... [Pg.148]

Du XM, Kohinata K, Kawasaki T, Guo YT, Miyahara K (1998) Resin Glycosides XXVI. Components of the Ether-Insoluble Glycoside-Like Fraction from Cuscuta chinensis. Phytochemistry 48 843... [Pg.148]

Cuscuta chinensis Lam. C. eumpaea L. C. japonica Choisy C. lupuliformis Krocker Tu Si Zi (Dodder) (seed) Cuscutalin, bergenin, cuscutin, amarbelin, cholesterol, campesterol, beta-sitosterol, stigmasterol, beta-amyrin.48 Improve immunity, increase blood sugar metabolism. [Pg.65]

Cuscuta chinensis Lam., C. lupuliformis Krocker, C. japonica Choisy, C. europaea L. [Pg.368]

Cuscuta chinensis, C. europaea, C. japonica, C. lupuliformis Ailanthus altissima Chenopotium ambrosiodes Scopalia dulcis... [Pg.387]

Aleurites fordii, Chimaphila umbellata, Cirsium chinense, C. japonicum, Cuscuta chinensis, C. europaea,... [Pg.394]

Curcuma zedoaria, C. aromatica, C. kwangsiensis, C. longa Curcuma zedoaria, C. aromatica, C. kwangsiensis Cuscuta chinensis, C. europaea, C. japonica, C. lupuliformis Cuscuta chinensis, C. europaea, C. japonica, C. lupuliformis Osmunda japonica... [Pg.411]

Berberis vulgaria, B. aquifolium, Chelidonium majus, Coptis chinensis, C. groenlandica, C. trifolia, Mahonia aquifolium, Phellodendron amurense, P. chinensis Berberis vulgaria Apium graveolens Cuscuta chinensis, C. epithymum... [Pg.506]

Eucalyptus citriodora, E. globulus Cuscuta chinensis, C. epithymum Melilotus officinalis Syringa suspensa, S. vulgaris... [Pg.520]

Akbar, S., M. Nisa, and M. Tariq. 1985. Central nervous system depressant activity of Cuscuta chinensis. Int.. Crude Drug Res. 23(2) 91-94. [Pg.296]

Ma, H.X., Z.L. You, and R.G. Wang. 2008. Effect of total flavones from Cuscuta chinensis on expression of Th type-l/Th type-2 cytokines, serum P and PR in abortion rats model. Zhong yao cai 31(8) 1201. [Pg.296]

C,5H,4N203 M 270.287 Alkaloid from the dried fruits of Cuscuta chinensis (Convolvulaceae). Amorph. pale yellow powder, [a] -f 120.6 (c, 0.73 in MeOH). [Pg.79]

Wink M (1998) Chemical ecology of alkaloids. In Roberts MF, Wink M (eds) Alkaloids - biochemistry, ecology, and medicinal applications. Plenum Press, New York, pp 265-300 Yahata S, Domoto H, Sugimura C, Nohara T, Niiho Y, Ntikajima Y, Ito H (1994) An alkaloid and two lignans from Cuscuta chinensis. Phytochemistry 37 1755-1757 Yahata S, Uda N, Yoshio E, Yae E (2004) Steroidal alkaloid glycosides from tomato (Lycopersicon esculentum). J Nat Prod 67 500-502... [Pg.260]

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