Gluco- and ribosylation of the bases of sugar protected inosine and uridine were investigated, obtaining only adducts with β-configuration at the new glycosidic carbon; stereospecific insertion of a sugar moiety at the 1-N of inosine was achieved either using a Mitsunobu approach (for ribosylation) or by direct coupling of 1-α-bromoglucose 13 with 2',3',5'-tri-O-acetylinosine for glucosylation. 1-(β-D-glucosyl)-inosine, chosen as starting substrate for glucosylated analogs of cyclic IDP-ribose, was phosphorylated at the primary hydroxyls and tested in intramolecular pyrophosphate bond formation.
Glycosylations of inosine and uridine nucleoside bases and synthesis of the new 1-(beta-D-glucopyranosyl)-inosine-5 ',6 ''-diphosphate
MESSERE, Anna;
2000
Abstract
Gluco- and ribosylation of the bases of sugar protected inosine and uridine were investigated, obtaining only adducts with β-configuration at the new glycosidic carbon; stereospecific insertion of a sugar moiety at the 1-N of inosine was achieved either using a Mitsunobu approach (for ribosylation) or by direct coupling of 1-α-bromoglucose 13 with 2',3',5'-tri-O-acetylinosine for glucosylation. 1-(β-D-glucosyl)-inosine, chosen as starting substrate for glucosylated analogs of cyclic IDP-ribose, was phosphorylated at the primary hydroxyls and tested in intramolecular pyrophosphate bond formation.File in questo prodotto:
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