Abstract
We found that the syntheses of O-monosubstituted 1- N-alkyl- trans-3,4-dihydroxypyrrolidines, normally faces serious obstacles due to poorly reactive hydroxy groups as a consequence of the presence of a highly basic pyrrolidine nitrogen atom, but that they can be obtained easily in high yields by conversion of 1- N-alkyl- trans-3,4-dihydroxypyrrolidines into the corresponding N-oxides. N-Oxidation leads to the loss of the pyrrolidine nitrogen atom basicity and discrimination in the reactivity of the originally equivalent hydroxy groups by at least one order of magnitude. The reaction of N-oxide derivatives with DMTrCl or TBDPSCl then proceeds in an almost quantitative yield, rapidly, and stereospecifically on the hydroxy group which is in a cis-position to the N-oxide oxygen atom. In contrast to the TBDPS derivative, the DMTr derivative could be easily deoxygenated with triphenylphosphine in high yield. The structures of the products obtained were confirmed by 2D NMR experiments, and quantum-chemical calculations were performed to explain the reaction mechanism of the stereospecific course of the reaction.
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