Abstract
A greener chemo-enzymatic methodology has been developed for the synthesis of conformationally restricted diastereomeric homolyxofuranosyl pyrimidines (AZT analogue), i.e., (5′R)-3′-azido-3′-deoxy-2′-O,5′-C-bridged-β-d-homolyxofuranosyl-uracil and thymine starting from inexpensive diacetone-d-glucofuranose in 18% and 21% overall yields, respectively. In one of the key steps in multistep synthesis of bicyclic AZT analogues, the primary hydroxyl group of 3′-azido-3′-deoxy-β-d-glucofuranosyl pyrimidines has been acetylated using Novozyme® 435 in THF in 92% and 97% yields, respectively. The monoacetylated nucleoside was converted to desired bicyclic AZT analogue in two steps in an overall yield of 82% and 83%, respectively.
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