5465-20-3Relevant articles and documents
Using (+)-carvone to access novel derivatives of (+)-ent-cannabidiol: The first asymmetric syntheses of (+)-ent-CBDP and (+)-ent-CBDV
Golliher, Alexandra E.,Tenorio, Antonio J.,Dimauro, Nina O.,Mairata, Nicolas R.,Holguin, F. Omar,Maio, William
supporting information, (2021/02/20)
(?)-Cannabidiol [(?)-CBD] has recently gained prominence as a treatment for neuro-inflammation and other neurodegenerative disorders; interest is also developing in its synthetic enantiomer, (+)-CBD, which has a higher affinity to CB1/CB2 receptors than the natural stereoisomer. We have developed an inexpensive, stereoselective route to access ent-CBD derivatives using (+)-carvone as a starting material. In addition to (+)-CBD, we report the first syntheses of (+)-cannabidivarin, (+)-cannabidiphorol as well as C-6/C-8 homologues.
BIOLOGICALLY ACTIVE PHENOLIC METABOLITES OF A VERTICICLADIELLA SPECIES
Ayer, William A.,Browne, Lois M.,Lovell, Sarah H.
, p. 2267 - 2272 (2007/10/02)
The metabolites produced when a Verticicladiella species (Canadian Forestry Service strain C728), the causative agent of the black stain root disease of many conifers, is grown in liquid culture have been investigated.Orcinol, orcinol monomethyl ether, 1,3,6,8-tetrahydroxyanthraquinone, and the α-L-rhamnopyranosides of orcinol and orcinol methyl ether have been isolated and indentified.Orcinol methyl ether and its rhamnoside both show antibacterial activity and orcinol methyl ether also inhibits the growth of pine germlings.The general antibacterial activity of 5-alkylresorcinols and their monomethyl ethers is reported.-Key Word Index-Verticicladiella sp.; Deuteromycontina; blue-stain fungus; phytotoxin; phenols; methylorcinol rhamnoside; phenol monomethyl ethers; antiseptics.
