Article ID Journal Published Year Pages File Type
2187397 Journal of Molecular Biology 2008 10 Pages PDF
Abstract

We have determined the crystal structure of Streptococcus mutans dextran glucosidase, which hydrolyzes the α-1,6-glucosidic linkage of isomaltooligosaccharides from their non-reducing ends to produce α-glucose. By using the mutant of catalytic acid Glu236→Gln, its complex structure with the isomaltotriose, a natural substrate of this enzyme, has been determined. The enzyme has 536 amino acid residues and a molecular mass of 62,001 Da. The native and the complex structures were determined by the molecular replacement method and refined to 2.2 Å resolution, resulting in a final R-factor of 18.3% for significant reflections in the native structure and 18.4% in the complex structure. The enzyme is composed of three domains, A, B and C, and has a (β/α)8-barrel in domain A, which is common to the α-amylase family enzymes. Three catalytic residues are located at the bottom of the active site pocket and the bound isomaltotriose occupies subsites −1 to +2. The environment of the glucose residue at subsite −1 is similar to the environment of this residue in the α-amylase family. Hydrogen bonds between Asp60 and Arg398 and O4 atom of the glucose unit at subsite −1 accomplish recognition of the non-reducing end of the bound substrate. The side-chain atoms of Glu371 and Lys275 form hydrogen bonds with the O2 and O3 atoms of the glucose residue at subsite +1. The positions of atoms that compose the scissile α-1,6-glucosidic linkage (C1, O6 and C6 atoms) are identical with the positions of the atoms in the scissile α-1,4 linkage (C1, O4 and C4 atoms) of maltopentaose in the α-amylase structure from Bacillus subtilis. The comparison with the α-amylase suggests that Val195 of the dextran glucosidase and the corresponding residues of α-1,6-hydrolyzing enzymes participate in the determination of the substrate specificity of these enzymes.

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