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Abstract
We describe complementary methods for synthesizing acyclic vinylic ethers from two carbohydrate-derived synthons. We compare a non-stereoselective modified Julia olefination approach with a newer, stereoselective catalytic C-O cross-coupling method, preparing 1,2-disubstituted vinylic ethers with structural and stereochemical complexity on both sides of the ether linkage. Upon epoxidation / in situ oxacyclization of acyclic vinylic ether products, we have synthesized disaccharides with alpha-D-galacto-, alpha-D-talo-, beta-D-allo-, and alpha-D-altropyranoside stereochemistry arising from D-lyxose and D-ribose precursors. The stereoselective CuI/CyDMEDA-catalyzed C-O cross-coupling method offers considerable potential for broadly implementing this non-traditional strategy for glycoside synthesis.
Supplementary materials
Title
Supporting Information part 1
Description
Detailed experimental procedures, compound characterization
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Title
Supporting Information part 2
Description
1H and 13C NMR spectra for new compounds
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