In the present work, the synthesis
of acetylated salicins, which
occur naturally in many Salicaceae species,
is reported. The preparation of 2-O-acetylsalicin,
2-O-acetylchlorosalicin, and 2-O-acetylethylsalicin from peracetylated bromosalicin with selective
acid-catalyzed deacetylation and one-pot nucleophilic substitution
of bromine as the key steps is described. The base-catalyzed O-2 →
O-6 acetyl migration afforded 6-O-acetylsalicin derivatives
in good yields. Thus, the first synthesis of 6-O-acetylsalicin
(fragilin) using acetyl group migration is reported as well as the
synthesis of 6-O-acetylchlorosalicin and 6-O-acetylethylsalicin. The NaOMe-catalyzed deacetylation
of acetylated glycosides gave salicin, chlorosalicin, and ethylsalicin
recently reported from Alangium chinense.
Herein is reported the first total synthesis of benzyl salicylate and benzyl gentisate glucosides present in various plant species, in particular the Salix genus, such as Populus balsamifera and P. trichocarpa. The method permits the synthesis of several natural phenolic acid derivatives and their glucosides starting from salicylic or gentisic acid. The divergent approach afforded access to three different acetylated glucosides from a common synthetic intermediate. The key step in the total synthesis of naturally occurring glycosidesthe selective deacetylation of the sugar moietywas achieved in the presence of a labile benzyl ester group by employing mild deacetylation conditions. The protocol permitted synthesis of trichocarpine (4 steps, 40% overall yield), isotrichocarpine (3 steps, 51% overall yield), trichoside (6 steps, 40% overall yield), and deoxytrichocarpine (3 steps, 42% overall yield) for the first time (>95% purity). Also, the optimized mild deacetylation conditions allowed synthesis of 2-O-acetylated derivatives of all four glycosides (5−17% overall yield, 90−95% purity), which are rare plant metabolites.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.