EC Number |
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1.1.1.335 | crystal structure of the enzyme in a complex with NAD(H), to 1.5 A resolution. The tetrameric enzyme assumes an unusual quaternary structure with the dinucleotides positioned quite closely to one another. Both 2-oxoglutarate and the UDP-linked sugar bind in the enzyme active site with their carbon atoms, C-2 and C-3', respectively, abutting the re face of the cofactor. They are positioned about 3 A from the nicotinamide C-4. The UDP-linked sugar substrate adopts a highly unusual curved conformation when bound in the enzyme's active site cleft |
1.1.1.335 | crystal structures of the enzyme in a complex with NAD(H) and 2-oxoglutarate, and the enzyme in a complex with NAD(H) and its substrate UDP-N-acetyl-D-glucosaminuronic acid, to 1.45 A and 2.0 A resolution, respectively. The tetrameric enzyme assumes an unusual quaternary structure with the dinucleotides positioned quite closely to one another. Both 2-oxoglutarate and the UDP-linked sugar bind in the enzyme active site with their carbon atoms, C-2 and C-3', respectively, abutting the re face of the cofactor. They are positioned about 3 A from the nicotinamide C-4. The UDP-linked sugar substrate adopts a highly unusual curved conformation when bound in the enzyme's active site cleft. Residues Lys101 and His185 most likely play key roles in catalysis |
1.1.1.335 | in presence of NAD(H) and substrate to 2.13 A and 1.5 A resolution. Enzyme displays octameric quaternary structure with the active sites positioned far apart. The octamers can be envisioned as tetramers of dimers. The carboxylate group attached to the C-5' carbon of the hexose in the natural substrate, UDP-N-acetyl-D-glucosaminuronic acid, is held firmly in place in the enzyme WlbA active site by the side chains of Arg165 and Tyr169 |