Studies have described a highly convergent plan toward the synthesis of leiodolide A (), a potent cytotoxic sponge metabolite. The enantiocontrolled preparation of aldehyde is achieved with the application of several advances in methodology for the synthesis of substituted 1,3-oxazoles. Efforts have examined the halogen dance reaction, the selectivity of Stille cross coupling reactions of 4-bromo-1,3-oxazoles, and nucleophilic displacement of the 2-phenylsulfonyl substituent with organolithium reagents as preparatively useful reactions. These techniques have facilitated the efficient synthesis of from the starting bromide , alkenylstannane , and the primary nonracemic alcohol .
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Synthesis of Leiodolide A Macrolactone.
Org Lett
March 2025
Department of Chemistry, Indiana University, Bloomington, Indiana 47405, United States.
A convergent route toward the synthesis of leiodolide A () is described. Our studies explored reactions of the indium chloride-induced transmetalation of allylic stannane for nucleophilic addition with nonracemic aldehyde . The stereoselective formation of the all- stereotriad was rationalized by an isomerization to produce the -allylindium reagent for subsequent -Felkin addition.
View Article and Find Full Text PDFStudies Toward the Synthesis of Leiodolide A.
Org Lett
March 2025
Department of Chemistry, Indiana University, Bloomington, Indiana 47405, United States.
Studies have described a highly convergent plan toward the synthesis of leiodolide A (), a potent cytotoxic sponge metabolite. The enantiocontrolled preparation of aldehyde is achieved with the application of several advances in methodology for the synthesis of substituted 1,3-oxazoles. Efforts have examined the halogen dance reaction, the selectivity of Stille cross coupling reactions of 4-bromo-1,3-oxazoles, and nucleophilic displacement of the 2-phenylsulfonyl substituent with organolithium reagents as preparatively useful reactions.
View Article and Find Full Text PDFThe leiodolide B puzzle.
Angew Chem Int Ed Engl
January 2011
Max-Planck-Institut für Kohlenforschung, 45470 Mülheim/Ruhr, Germany.
Catalytic enantioselective alkylation of substituted dioxanone enol ethers: ready access to Calpha-tetrasubstituted hydroxyketones, acids, and esters.
Angew Chem Int Ed Engl
September 2008
Arnold and Mabel Beckman Laboratories of Chemical Synthesis, Division of Chemistry and Chemical Engineering, California Institute of Technology, 1200 E. California Boulevard MC 164-30, Pasadena, CA 91125, USA.
The catalytic enantioselective formation of tetrasubstituted α-alkoxycarbonyl compounds is an ongoing challenge to synthetic chemists.[1] Fully-substituted α-hydroxyesters and acids comprise essential components of, and building blocks for, many bioactive natural products. These include quinic acid (), cytotoxic leiodolide A (),[2] and the anti-cancer agents in the harringtonine series (–), whose activities depend dramatically on the presence and composition of an α-hydroxyester side-chain.
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