Glycosyl azides are shown to be efficient donors for b-galactosidases, b-glucosidases and a-mannosidases. Only a-galactosidases do not cleave the respective glycosyl azide 1 and, moreover, they exhibit competitive inhibition (especially a-galactosidase from Talaromyces flavus). High water solubility and ready synthesis of glycosyl azides enable transglycosylation reactions even with difficult acceptors like N-acetyl- d -mannosamine in good yields. The versatility of glycosyl azides was demonstrated in the synthesis of five disaccharides - two of them are de- scribed for the first time. All the reactions were highly regioselective, yielding beta-(1-6) isomers. Beta-galactosidase from E. coli proved to have the best synthetic capabilities. The present study shows that glycosyl azides are a valuable alternative to common p-nitrophenyl glycoside donors and in many synthetic reactions.
Glycosyl azides - An alternative way to disaccharides
Ferrandi EE;Monti D;
2007
Abstract
Glycosyl azides are shown to be efficient donors for b-galactosidases, b-glucosidases and a-mannosidases. Only a-galactosidases do not cleave the respective glycosyl azide 1 and, moreover, they exhibit competitive inhibition (especially a-galactosidase from Talaromyces flavus). High water solubility and ready synthesis of glycosyl azides enable transglycosylation reactions even with difficult acceptors like N-acetyl- d -mannosamine in good yields. The versatility of glycosyl azides was demonstrated in the synthesis of five disaccharides - two of them are de- scribed for the first time. All the reactions were highly regioselective, yielding beta-(1-6) isomers. Beta-galactosidase from E. coli proved to have the best synthetic capabilities. The present study shows that glycosyl azides are a valuable alternative to common p-nitrophenyl glycoside donors and in many synthetic reactions.| File | Dimensione | Formato | |
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