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Structural basis of aspartylglucosaminuria.

Biochemical and biophysical research communications (2008-11-11)
Seiji Saito, Kazuki Ohno, Kanako Sugawara, Toshihiro Suzuki, Tadayasu Togawa, Hitoshi Sakuraba
ABSTRACT

To elucidate the basis of aspartylglucosaminuria (AGU) from the viewpoint of enzyme structure, we constructed structural models of mutant aspartylglucosaminidase (AGA) proteins using molecular modeling software, TINKER. We classified the amino acid substitutions responsible for AGU and divided them into three groups based on the biochemical phenotype. Then, we examined the structural changes in the AGA protein for each group by calculating the solvent-accessible surface area (ASA), the number of atoms affected, and the root-mean-square deviation (RMSD). Our results revealed that the structural changes in group 1, which exhibits folding/transport defects and a complete deficiency of AGA activity, were generally large and located in the core region of the enzyme molecule. In group 2, exhibiting the mature AGA protein but no AGA activity, the functionally important region of the enzyme molecule was seriously affected. In group 3 exhibiting residual AGA activity, the structural changes in AGA were small and localized near the surface of the enzyme molecule. Coloring of affected atoms based on the distances between the wild-type and mutant ones revealed the characteristic structural changes in the AGA protein geographically and semi-quantitatively. Structural investigation provides us with a deeper insight into the basis of AGU.

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Sigma-Aldrich
L-Aspartic acid β-(7-amido-4-methylcoumarin), fluorescent amino acid