Reaction participants Show >> << Hide
- Name help_outline D-aspartate Identifier CHEBI:29990 Charge -1 Formula C4H6NO4 InChIKeyhelp_outline CKLJMWTZIZZHCS-UWTATZPHSA-M SMILEShelp_outline [NH3+][C@H](CC([O-])=O)C([O-])=O 2D coordinates Mol file for the small molecule Search links Involved in 9 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline O2 Identifier CHEBI:15379 (CAS: 7782-44-7) help_outline Charge 0 Formula O2 InChIKeyhelp_outline MYMOFIZGZYHOMD-UHFFFAOYSA-N SMILEShelp_outline O=O 2D coordinates Mol file for the small molecule Search links Involved in 2,727 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline H2O Identifier CHEBI:15377 (CAS: 7732-18-5) help_outline Charge 0 Formula H2O InChIKeyhelp_outline XLYOFNOQVPJJNP-UHFFFAOYSA-N SMILEShelp_outline [H]O[H] 2D coordinates Mol file for the small molecule Search links Involved in 6,264 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline oxaloacetate Identifier CHEBI:16452 (CAS: 149-63-3) help_outline Charge -2 Formula C4H2O5 InChIKeyhelp_outline KHPXUQMNIQBQEV-UHFFFAOYSA-L SMILEShelp_outline [O-]C(=O)CC(=O)C([O-])=O 2D coordinates Mol file for the small molecule Search links Involved in 60 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline H2O2 Identifier CHEBI:16240 (CAS: 7722-84-1) help_outline Charge 0 Formula H2O2 InChIKeyhelp_outline MHAJPDPJQMAIIY-UHFFFAOYSA-N SMILEShelp_outline [H]OO[H] 2D coordinates Mol file for the small molecule Search links Involved in 452 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline NH4+ Identifier CHEBI:28938 (CAS: 14798-03-9) help_outline Charge 1 Formula H4N InChIKeyhelp_outline QGZKDVFQNNGYKY-UHFFFAOYSA-O SMILEShelp_outline [H][N+]([H])([H])[H] 2D coordinates Mol file for the small molecule Search links Involved in 529 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
Cross-references
RHEA:12512 | RHEA:12513 | RHEA:12514 | RHEA:12515 | |
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Reaction direction help_outline | undefined | left-to-right | right-to-left | bidirectional |
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Related reactions help_outline
More general form(s) of this reaction
Publications
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Comparative characterization of three D-aspartate oxidases and one D-amino acid oxidase from Caenorhabditis elegans.
Katane M., Saitoh Y., Seida Y., Sekine M., Furuchi T., Homma H.
Previously, we cloned cDNAs for four Caenorhabditis elegans genes (F20 Hp, C47Ap, F18Ep, and Y69Ap genes) that were annotated in the database as encoding D-amino acid oxidase (DAO) or D-aspartate oxidase (DDO) proteins. These genes were expressed in Escherichia coli, and the recombinant C47Ap and ... >> More
Previously, we cloned cDNAs for four Caenorhabditis elegans genes (F20 Hp, C47Ap, F18Ep, and Y69Ap genes) that were annotated in the database as encoding D-amino acid oxidase (DAO) or D-aspartate oxidase (DDO) proteins. These genes were expressed in Escherichia coli, and the recombinant C47Ap and F18Ep were shown to have functional DDO activities, while Y69Ap had functional DAO activity. In this study, we improved the E. coli culture conditions for the production of recombinant F20 Hp and, following purification of the protein, revealed that it has functional DDO activity. The kinetic properties of recombinant C47Ap (DDO-1), F18Ep (DDO-2), F20 Hp (DDO-3), and Y69Ap (DAO) were also determined and compared with recombinant human DDO and DAO. In contrast to the low catalytic efficiency of human DDO for D-Glu, all three C. elegans DDOs showed higher catalytic efficiencies for D-Glu than D-Asp or N-methyl-D-Asp. The catalytic efficiency of C. elegans DAO for D-Ser was substantially lower than that of human DAO, while the C. elegans DAO was more efficient at deamination of basic D-amino acids (D-Arg and D-His) than human DAO. Collectively, our results indicate that C. elegans contains at least three genes that encode functional DDOs, and one gene encoding a functional DAO, and that these enzymes have different and distinctive properties. << Less
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Functional and structural characterization of D-aspartate oxidase from porcine kidney: non-Michaelis kinetics due to substrate activation.
Yamamoto A., Tanaka H., Ishida T., Horiike K.
D-aspartate oxidase (DDO, EC 1.4.3.1) catalyzes dehydrogenation of D-aspartate to iminoaspartate and the subsequent re-oxidation of reduced FAD with O2 to produce hydrogen peroxide. In the mammalian neuroendocrine system, D-aspartate, a natural substrate, plays important roles in the regulation of ... >> More
D-aspartate oxidase (DDO, EC 1.4.3.1) catalyzes dehydrogenation of D-aspartate to iminoaspartate and the subsequent re-oxidation of reduced FAD with O2 to produce hydrogen peroxide. In the mammalian neuroendocrine system, D-aspartate, a natural substrate, plays important roles in the regulation of the synthesis and secretion of hormones. To elucidate the kinetic and structural properties of native DDO, we purified DDO from porcine kidney to homogeneity, cloned the cDNA, and overexpressed the enzyme in Escherichia coli. The purified DDO was a homotetramer with tightly-bound FAD. The enzyme consisted of 341 amino acids and had GAGVMG as the dinucleotide binding motif and a C-terminal SKL peroxisomal-targeting signal sequence. Porcine DDO showed a strong affinity for meso-tartrate (Kd = 118 microM). The oxidase exhibited pronounced substrate activation at D-aspartate and D-glutamate concentrations, [S], higher than 0.2 and 4 mM, respectively, and the [S]/v versus [S] plot showed marked downward curvature (v, the initial velocity), whereas substrate inhibition occurred with N-methyl-D-aspartate. These kinetic properties of DDO suggested that at high substrate concentrations, the FAD-reduced form of the enzyme also catalyzes the reaction: the oxidative half-reaction precedes the reductive one. The present direct approach to the analysis of non-Michaelis kinetics is indispensable for understanding the functional properties of DDO. << Less