Hydroxyl groups protective group strategies

Because of the polyfunctional nature of carbohydrates, protective-group strategy plays an important role in synthetic methodology involving this class of compounds. In the present Chapter, results are described from a study of the utility of N-trimethylsilyl- and N-tert-butyldimethylsilyl-phthalimide for the selective silylation of primary hydroxyl groups in carbohydrates. Also described, is a new, facile method for cleavage of acetals and dithioacetals in carbohydrate derivatives the method involves treatment of the derivatives with a dilute solution of iodine in methanol. 

Figure 9 Synthetic carbohydrate chemistry requires elaborate use of orthogonal protecting group strategies to selectively protect and reveal specific hydroxyl groups for subsequent modification or giycosylation. Ri 4, protecting groups A-D, deprotection conditions.

Use in Protecting Group Strategies. AgOTf has been employed with benzyl bromide to allow for the benzylation of hydroxyl groups under neutral conditions (eqs 24 and 25) this... 

The aqueous Barbier-Grignard-type reaction has also been used in the synthesis of natural products. Chan and Li used the zinc mediated allylation as a key step in a total synthesis of (+)-muscarine (Scheme 8.5).72 The strategy was based on the observation that the diastereoselectivity of the allylation reaction in water can be reversed through the protection of the a-hydroxyl group. 

In a recent application of this strategy, nitrocyclohexane 143 (prepared from nitrosugar 142 by intramolecular Henry reaction) was subjected to a radical denitration by HSnBu3, after protection of the hydroxyl groups to avoid side reactions. Inositol 146 was selectively obtained in good yield, once the hydroxyl protecting groups were removed (Scheme 45).101... 

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