Sugar acetonides, deprotection

The C-glycoside 178 was used by Boyd and Sulikowski [87] in the total synthesis of enantiomerically pure urdamycinone B (182) and 104-2 (183) making use of the diene 107 derived from shikimic acid (Scheme 29) and the NMO oxidation to generate the C-5 phenols (Scheme 40). Thus, the bromonaphthoquinone 179 (prepared by treatment of phenol 178 with NBS) formed the tetracycle 180 through a Diels-Alder reaction with the diene 107 in analogy to sugar-free reactants. Osmylation to a cis-diol, deprotection, oxidation, and acetalization gave the acetonide 181. The decisive step in the aromatization to 182 and 183 was the reaction with NMO (Scheme 46). Aromatization was also effected by direct periodane oxidation of adduct 180 to derive 182 after deprotection. 

Since an acetal is produced by the reaction of a carbonyl with a diol, an acetal can serve as a protective group for either functional group. Deprotection is accomplished as usual by treatment with acid and water hydrolysis of the acetal regenerates both the carbonyl and the diol. Both 1,2- and 1,3-Diols can be protected by reaction with acetone and acid. The resulting cyclic acetal (called an acetonide) is widely used in carbohydrate chemistry to selectively mask pairs of hydroxyl groups in sugars. 

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