Rotenoids and Other Specialized Metabolites from the Roots of Mirabilis multiflora: Opioid and Cannabinoid Receptor Radioligand Binding Affinities

Abstract: Mirabilis multiflora is an acclaimed hallucinogen consumed traditionally by the Hopi Indians to induce diagnostic visions. Its root extract afforded a new (3) and four known (2, 5, 6, and 7) 12a-hydroxyrotenoids, a known rotenoid (4), and two known secondary metabolites (1 and 8). The structures of the compounds were elucidated based on spectroscopic and spectrometric data analysis. Electronic circular dichroism data were used to define the (6aS,12aR) absolute configuration of the 12a-hydroxyrotenoids. Compoun… Show more

“…By comparing the data with the published articles, and considering their physical and spectroscopic data, it was determined that the known compounds are formononetin ( 3 ), [7] daidzein ( 4 ), [8] 4′,7‐dihydroxy‐3′‐methoxyisoflavone ( 5 ), [9] calycosin ( 6 ), [10] genistein ( 7 ), [11] biochanin A ( 8 ), [12] 3′‐hydroxygenistein ( 9 ), [13] pratensein ( 10 ), [14] 5,7,4′‐trihydroxy‐3′‐methoxyisoflavone ( 11 ), [15] rothindin ( 12 ), [16] ononin ( 13 ), [17] genistin ( 14 ), [18] formononetin‐7‐ O ‐ β ‐D‐apiofuranosyl‐(1→6)‐ β ‐D‐glucopyranoside ( 15 ), [19] 4′‐hydroxy‐3′‐methoxyisoflavone‐7‐ O ‐ β ‐D‐apiofuranosyl‐(1→6)‐ β ‐D‐glucopyranoside ( 16 ), [5] ambocin ( 17 ), [20] auriculasin ( 18 ), [21] 13‐homo‐13‐oxa‐6a,12a‐dehydrodeguelin ( 19 ), [22] (6a R ,12a R )‐tephrosin ( 20 ), [23,24] (−)‐maackiain ( 21 ), [25,27] (−)‐medicarpin ( 22 ), [25,27,28] 3′‐methoxycoumestrol ( 23 ), [29] (+)‐catechin ( 24 ), [25,30,31] (−)‐epicatechin ( 25 ), [25,30,32] isophyllocoumarin ( 26 ), [25,30,33] isoepiphyllocoumarin ( 27 ), [25,30,33] phyllocoumarin( 28 ), [25,30,33] epiphyllocoumarin ( 29 ), [25,30,33] 2 α ,3 α ‐epoxy‐5,7,3′,4′‐tetrahydroxyflavan‐(4 β ‐8‐catechin) ( 30 ), [30,34] (−)‐lyoniresinol‐9′‐ O ‐ β ‐D‐glucopyranoside ( 31 ), [35,36] and (−)‐lariciresinol‐4‐ O ‐ β ‐D‐glucopyranoside ( 32 ) [37]…”

Study on Chemical Components from Derris taiwaniana and Their Lung Epithelial Cell Protect Effects

“…By comparing the data with the published articles, and considering their physical and spectroscopic data, it was determined that the known compounds are formononetin ( 3 ), [7] daidzein ( 4 ), [8] 4′,7‐dihydroxy‐3′‐methoxyisoflavone ( 5 ), [9] calycosin ( 6 ), [10] genistein ( 7 ), [11] biochanin A ( 8 ), [12] 3′‐hydroxygenistein ( 9 ), [13] pratensein ( 10 ), [14] 5,7,4′‐trihydroxy‐3′‐methoxyisoflavone ( 11 ), [15] rothindin ( 12 ), [16] ononin ( 13 ), [17] genistin ( 14 ), [18] formononetin‐7‐ O ‐ β ‐D‐apiofuranosyl‐(1→6)‐ β ‐D‐glucopyranoside ( 15 ), [19] 4′‐hydroxy‐3′‐methoxyisoflavone‐7‐ O ‐ β ‐D‐apiofuranosyl‐(1→6)‐ β ‐D‐glucopyranoside ( 16 ), [5] ambocin ( 17 ), [20] auriculasin ( 18 ), [21] 13‐homo‐13‐oxa‐6a,12a‐dehydrodeguelin ( 19 ), [22] (6a R ,12a R )‐tephrosin ( 20 ), [23,24] (−)‐maackiain ( 21 ), [25,27] (−)‐medicarpin ( 22 ), [25,27,28] 3′‐methoxycoumestrol ( 23 ), [29] (+)‐catechin ( 24 ), [25,30,31] (−)‐epicatechin ( 25 ), [25,30,32] isophyllocoumarin ( 26 ), [25,30,33] isoepiphyllocoumarin ( 27 ), [25,30,33] phyllocoumarin( 28 ), [25,30,33] epiphyllocoumarin ( 29 ), [25,30,33] 2 α ,3 α ‐epoxy‐5,7,3′,4′‐tetrahydroxyflavan‐(4 β ‐8‐catechin) ( 30 ), [30,34] (−)‐lyoniresinol‐9′‐ O ‐ β ‐D‐glucopyranoside ( 31 ), [35,36] and (−)‐lariciresinol‐4‐ O ‐ β ‐D‐glucopyranoside ( 32 ) [37]…”

Study on Chemical Components from Derris taiwaniana and Their Lung Epithelial Cell Protect Effects

Immobilized beta2-adrenergic receptor: A powerful chromatographic platform for drug discovery and evaluation of drug-like property for natural products

Rotenoids and coumaronochromonoids from Boerhavia erecta and their biological activities: In vitro and in silico studies