2.7.1.47: D-ribulokinase
This is an abbreviated version!
For detailed information about D-ribulokinase, go to the full flat file.
Word Map on EC 2.7.1.47
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2.7.1.47
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aerogenes
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ribitol
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klebsiella
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d-xylulokinase
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d-arabinose
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aerobacter
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l-fucose
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d-xylulose
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xylitol
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l-fuculose-1-phosphate
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pentitol
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d-arabitol
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pentose
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uncommon
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superproduce
- 2.7.1.47
- aerogenes
- ribitol
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klebsiella
- d-xylulokinase
- d-arabinose
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aerobacter
- l-fucose
- d-xylulose
- xylitol
- l-fuculose-1-phosphate
- pentitol
- d-arabitol
- pentose
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uncommon
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superproduce
Reaction
Synonyms
FGGY, kinase (phosphorylating), D-ribulo-, kinase, D-ribulo- (phosphorylating), Ydr109c protein
ECTree
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General Information
General Information on EC 2.7.1.47 - D-ribulokinase
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evolution
malfunction
physiological function
additional information
the enzyme belongs to the broadly conserved FGGY family of carbohydrate kinases. Yeast Ydr109c and human FGGY are homologues of a proteobacterial D-ribulokinase involved in ribitol metabolism
evolution
the enzyme belongs to the broadly conserved FGGY family of carbohydrate kinases. Yeast Ydr109c and human FGGY are homologues of a proteobacterial D-ribulokinase involved in ribitol metabolism
evolution
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the enzyme belongs to the broadly conserved FGGY family of carbohydrate kinases. Yeast Ydr109c and human FGGY are homologues of a proteobacterial D-ribulokinase involved in ribitol metabolism
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in human FGGY deletion mutant HEK293 cells, ribulose can only be detected when ribitol is added to the cultivation medium. Under this condition, FGGY silencing leads to ribulose accumulation
malfunction
untargeted metabolomics analysis of an Saccharomyces cerevisiae deletion mutant of YDR109C reveals ribulose as one of the metabolites with the most significantly changed intracellular concentration as compared with a wild-type strain
malfunction
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untargeted metabolomics analysis of an Saccharomyces cerevisiae deletion mutant of YDR109C reveals ribulose as one of the metabolites with the most significantly changed intracellular concentration as compared with a wild-type strain
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the FGGY protein might act as a metabolite repair enzyme, serving to re-phosphorylate free D-ribulose generated by promiscuous phosphatases from D-ribulose 5-phosphate
physiological function
the Ydr109c protein might act as a metabolite repair enzyme, serving to re-phosphorylate free D-ribulose generated by promiscuous phosphatases from D-ribulose 5-phosphate
physiological function
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the Ydr109c protein might act as a metabolite repair enzyme, serving to re-phosphorylate free D-ribulose generated by promiscuous phosphatases from D-ribulose 5-phosphate
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the enzyme contains a 5-residue D-ribulokinase signature motif (TCSLV). Structural homology modeling of human D-ribulokinase and definition of a D-ribulokinase signature motif, using template structures from PDB entries 3GG4 chain A and 3L0Q chain A, respectively, of Yersinia pseudotuberculosis D-ribulokinase
additional information
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the enzyme contains a 5-residue D-ribulokinase signature motif (TCSLV). Structural homology modeling of human D-ribulokinase and definition of a D-ribulokinase signature motif, using template structures from PDB entries 3GG4 chain A and 3L0Q chain A, respectively, of Yersinia pseudotuberculosis D-ribulokinase
additional information
the enzyme contains a 5-residue D-ribulokinase signature motif (TCSLV). Structural homology modeling of yeast D-ribulokinase and definition of a D-ribulokinase signature motif, using template structures from PDB entries 3GG4 chain A and 3L0Q chain A, respectively, of Yersinia pseudotuberculosis D-ribulokinase
additional information
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the enzyme contains a 5-residue D-ribulokinase signature motif (TCSLV). Structural homology modeling of yeast D-ribulokinase and definition of a D-ribulokinase signature motif, using template structures from PDB entries 3GG4 chain A and 3L0Q chain A, respectively, of Yersinia pseudotuberculosis D-ribulokinase
additional information
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the enzyme contains a 5-residue D-ribulokinase signature motif (TCSLV). Structural homology modeling of yeast D-ribulokinase and definition of a D-ribulokinase signature motif, using template structures from PDB entries 3GG4 chain A and 3L0Q chain A, respectively, of Yersinia pseudotuberculosis D-ribulokinase
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