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PDBsum entry 2zic
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References listed in PDB file
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Key reference
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Title
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Substrate recognition mechanism of alpha-1,6-Glucosidic linkage hydrolyzing enzyme, Dextran glucosidase from streptococcus mutans.
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Authors
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H.Hondoh,
W.Saburi,
H.Mori,
M.Okuyama,
T.Nakada,
Y.Matsuura,
A.Kimura.
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Ref.
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J Mol Biol, 2008,
378,
913-922.
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PubMed id
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Abstract
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We have determined the crystal structure of Streptococcus mutans dextran
glucosidase, which hydrolyzes the alpha-1,6-glucosidic linkage of
isomaltooligosaccharides from their non-reducing ends to produce alpha-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 A 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 (beta/alpha)(8)-barrel in domain A, which is common to the
alpha-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 alpha-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
alpha-1,6-glucosidic linkage (C1, O6 and C6 atoms) are identical with the
positions of the atoms in the scissile alpha-1,4 linkage (C1, O4 and C4 atoms)
of maltopentaose in the alpha-amylase structure from Bacillus subtilis. The
comparison with the alpha-amylase suggests that Val195 of the dextran
glucosidase and the corresponding residues of alpha-1,6-hydrolyzing enzymes
participate in the determination of the substrate specificity of these enzymes.
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