Biologically active organic molecules acting as nucleoside mimics are frequently encountered in pharmaceutical research. They are either synthetic heterocycles, which miss the sugar-derived interactions with the active site of the nucleoside-binding protein, or natural products containing a glycosidic linkage, which may cause bioavailability and metabolic stability problems. We report here the concept of synthetic full nucleoside mimics, including both a N-containing nucleobase-like portion and a sugar-like moiety, where the latter consists of 5- and 6-membered carbacycles connected by a more stable and drug-like C-N bond to the nucleobase mimic. Compounds 14,16 (indolinones), 21 and 23 (benzimidazolones) have been prepared as model compounds.
Synthesis of non glycosidic nucleobase-sugar mimetics
Arosio D;
2010
Abstract
Biologically active organic molecules acting as nucleoside mimics are frequently encountered in pharmaceutical research. They are either synthetic heterocycles, which miss the sugar-derived interactions with the active site of the nucleoside-binding protein, or natural products containing a glycosidic linkage, which may cause bioavailability and metabolic stability problems. We report here the concept of synthetic full nucleoside mimics, including both a N-containing nucleobase-like portion and a sugar-like moiety, where the latter consists of 5- and 6-membered carbacycles connected by a more stable and drug-like C-N bond to the nucleobase mimic. Compounds 14,16 (indolinones), 21 and 23 (benzimidazolones) have been prepared as model compounds.| File | Dimensione | Formato | |
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