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N-phenylglucosylamine hydrolysis: a mechanistic probe of β-glucosidase.

Bioorganic chemistry (2011-03-26)
Ying Na, Hong Shen, Larry D Byers
RÉSUMÉ

The spontaneous hydrolysis of glycosylamines, where the aglycone is either a primary amine or ammonia, is over a hundred million-times faster than that of O- or S-glycosides. The reason for this (as pointed out by Capon and Connett in 1965) is that, in contrast to the mechanism for O- or S-glycoside hydrolysis, hydrolysis of these N-glycosides (e.g., glc-NHR) involves an endocyclic C-O bond cleavage resulting in formation of an imine (iminium ion) which then reacts with water. Since ring-opening is kinetically favored with glycosylamines, compounds such as phenylglucosylamine can be a useful probes of enzymes that have been suggested to possibly follow this mechanism. With β-glucosidase from sweet almonds, the enzyme is highly efficient in catalyzing the hydrolysis of phenyl glucoside (k(cat)/k(non)∼10(14)) and phenyl thioglucoside (k(cat)/k(non)∼10(10)) while with either the almond or the Aspergillus niger enzyme or with yeast α-glucosidase, there is no detectable catalysis of phenylglucosylamine hydrolysis (k(cat)/k(non)<20). These results are consistent with the generally accepted mechanism involving exocyclic bond cleavage by these enzymes.

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Sigma-Aldrich
Phenyl β-D-glucopyranoside, ≥95.0%