Lycium chinense

Zeaxanthin is the abundant xanthophyll in only a small number of food sources and is the dominant xanthophyll in orange peppers and Gou Zi Qi or lycium mill (Lycium chinense) berries, probably the richest sources. - ... [Pg.60]

Lycium chinense Miller Di Gu Pi (Matrimony vine) (root bark) Cinnamic acid, betaine, peptides, acyclic diterpene glycosides, polysaccharide, kukoamines.33 Lower blood sugar and blood pressure, antipyretic, stimulate uterine contraction, antibacterial. [Pg.104]

Cocculus diversifolius, C. thunbergii, Menispermum dauricum, Sinomenium acutum Menispermum dauricum Lycium chinense Hedyotis diffusa... [Pg.382]

Amaranthus caudatus, A. paniculatus, Astragalus complanatus, A. henyri, A. hoantchy, A. membranaceus, A. melilotoides, A. mongholicus, A. reflexistipulus, A. sinensis, Firmiana simplex, Lycium chinense,... [Pg.396]

Cinnamomum aromaticum, C. cassia, Daemonorops draco, Lycium chinense... [Pg.406]

A revised structure for the catecholamide spermidine siderophore obtained from Paracoccus denitrificans has been proposed the new structure contains a centrally located oxazole ring (6).3 The soft coral Sinularia brongersmai contains two spermidine derivatives, i.e. (7) and its 10,11-dehydro-derivative [(lOi )], both of which show cytotoxic activity.4 The hypotensive principle of the root bark of Lycium chinense has been isolated as an amorphous alkaloid called kukoamine A.5 Acid hydrolysis of the alkaloid produced only spermine and dihydrocaffeic acid, which, in association with its n.m.r. spectrum, indicated the structure (8). Another hypotensive principle, ephedradine B (9), has been obtained from Ephedra roots.6... [Pg.239]

Sample Lycium chinense A4 Schizandra chinensls A Citrus unshiu A Angelica gigas Comus officinalis Cnidium officinale... [Pg.533]

Kukoamine A (170) was isolated from the crude drug jikoppi, which is prepared from Lycium chinense. Hydrolysis with HC1 afforded two products spermine and dihydrocaffeic acid. Both were identified with authentic samples. The13C-NMR spectrum shows the presence of 14 signals for the 28 carbon atoms. It follows from this observation that kukoamine A must have a symmetric structure hence, there are only two structure possibilities. The H-NMR spectrum shows the presence of only four hydrogen atoms adja-... [Pg.131]

Fagomine Fagopyrum esculentum (Polygonaceae) seeds Xanthocercis zjambesiaca (Leguminosae) seeds, leaves/ roots Moms bombycis (Moraceae) leaves Moms alba (Moraceae) rods Lycium chinense (Solanaceae) roots ... [Pg.173]

Deoxy-fagoniine Lycium chinense (Solanaceae) roots "... [Pg.173]

Calystegine Bi Convolvulus arvensis (Convolyulaceae) leaves/roots Calystegia sepium (Convolyulaceae) leaves/roots Physalis alkekengi (Solanaceae) roots Hyoscyamus niger (Solanaceae) leaves/roots Mandragora officinarum (Solanaceae) leaves/roots/fruits" Scopolia spp. (Solanaceae) leaves/roots Ipomoea batatus (Convolyulaceae) leaves/roots Duboisia leicMutrdtii (Solanaceae) leaves Lycium chinense (Solanaceae) roots ... [Pg.175]

Johnston Lycieae clade Lycium chinense L. isol. isol. isol. isol. isol. isol. isol. (4.12)... [Pg.162]

Certain species turned out to contain a rich spectrum of calystegines, especially Lycium chinense (13 compounds, Nj not counted) and Scopolia japonica (7). The majority of the species showed 3-5 compounds. The major components of solana-ceous species are usually A and B (Keiner et al. 2000). These two metabolites and in addition B, are the most frequent ones followed by Bj, A, B, and Cj. The occur-... [Pg.164]

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