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Abstract
GDP-mannose-3',5'-epimerase (GME) from Arabidopsis thaliana catalyzes the epimerization of both the 3' and 5' positions of GDP-alpha-D-mannose to yield GDP-beta-L-galactose. Production of the C5' epimer of GDP-alpha-D-mannose, GDP-beta-L-gulose, has also been reported. The reaction occurs as part of vitamin C biosynthesis in plants. We have determined structures of complexes of GME with GDP-alpha-D-mannose, GDP-beta-L-galactose, and a mixture of GDP-beta-L-gulose with GDP-beta-L-4-keto-gulose to resolutions varying from 2.0 to 1.4 angstrom. The enzyme has the classical extended short-chain dehydratase/reductase (SDR) fold. We have confirmed that GME establishes an equilibrium between two products, GDP-beta-L-galactose and GDP-beta-L-gulose. The reaction proceeds by C4' oxidation of GDP-alpha-D-mannose followed by epimerization of the C5' position to give GDP-beta-L-4-keto-gulose. This intermediate is either reduced to give GDP-beta-L-gulose or the C3' position is epimerized to give GDP-beta-L-4-keto-galactose, then C4' is reduced to GDP-beta-L-galactose. The combination of oxidation, epimerization, and reduction in a single active site is unusual. Structural analysis coupled to site-directed mutagenesis suggests C145 and K217 as the acid/base pair responsible for both epimerizations. On the basis of the structure of the GDP-beta-L-gulose/GDP-beta-L-4-keto-gulose co-complex, we predict that a ring flip occurs during the first epimerization and that a boat intermediate is likely for the second epimerization. Comparison of GME with other SDR enzymes known to abstract a protein a to the keto function of a carbohydrate identifies key common features.
Original language | English |
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Pages (from-to) | 18309-18320 |
Number of pages | 12 |
Journal | Journal of the American Chemical Society |
Volume | 127 |
Issue number | 51 |
DOIs | |
Publication status | Published - 28 Dec 2005 |
Keywords
- UDP-GALACTOSE 4-EPIMERASE
- GAMMA-LACTONE DEHYDROGENASE
- MANNO-HEPTOSE 6-EPIMERASE
- GDP-FUCOSE SYNTHETASE
- DE-NOVO BIOSYNTHESIS
- D-GALACTURONIC ACID
- L-RHAMNOSE PATHWAY
- ESCHERICHIA-COLI
- ASCORBIC-ACID
- VITAMIN-C
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- 1 Finished
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Wellcome Trust 067305: Deoxy sugar biosynthesis in Bacteria: novel antibiotics and new therapeutic targets
Naismith, J. (PI)
1/07/02 → 31/07/07
Project: Standard