1.1.1.9: D-xylulose reductase
This is an abbreviated version!
For detailed information about D-xylulose reductase, go to the full flat file.
Word Map on EC 1.1.1.9
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1.1.1.9
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xanthine
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xylose
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stipitis
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pichia
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xylulokinase
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uric
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lignocellulosic
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pentose
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candida
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molybdenum
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xylose-fermenting
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allopurinol
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hypoxanthine
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xanthinuria
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xylose-utilizing
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hydrolysate
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l-arabitol
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guilliermondii
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bagasse
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bioethanol
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l-arabinose
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hemicellulosic
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marxianus
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scheffersomyces
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rosy
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d-sorbitol
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oxygen-limited
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l-xylulose
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mocos
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tannophilus
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oxydans
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ribitol
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molecular biology
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gluconobacter
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pachysolen
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pseudoobscura
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sulfurase
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shehatae
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synthesis
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biotechnology
- 1.1.1.9
- xanthine
- xylose
- stipitis
- pichia
- xylulokinase
-
uric
-
lignocellulosic
- pentose
- candida
- molybdenum
-
xylose-fermenting
- allopurinol
- hypoxanthine
-
xanthinuria
-
xylose-utilizing
- hydrolysate
- l-arabitol
- guilliermondii
- bagasse
-
bioethanol
- l-arabinose
-
hemicellulosic
- marxianus
- scheffersomyces
-
rosy
- d-sorbitol
-
oxygen-limited
- l-xylulose
- mocos
- tannophilus
- oxydans
- ribitol
- molecular biology
- gluconobacter
- pachysolen
- pseudoobscura
-
sulfurase
- shehatae
- synthesis
- biotechnology
Reaction
Synonyms
2,3-cis-polyol(DPN) dehydrogenase (C3-5), D-xylulose reductase A, erythritol dehydrogenase, GmXDH, IoXyl2p, McXDH, More, NAD+-dependent XDH, NAD+-dependent xylitol dehydrogenase, NAD+-linked xylitol dehydrogenase, NAD-dependent xylitol dehydrogenase, NADH-dependent XDH, NADH-dependent xylitol dehydrogenase, nicotinamide adenine dinucleotide-dependent xylitol dehydrogenase 2, pentitol-DPN dehydrogenase, Ps-XDH, PsXDH, reductase, D-xylulose, RpXDH, slSDH, SpXYL2.2, SsXyl2p, TdXyl2p, XDH, XDH-Y25, xdhA, XL2, XYL2, XYL2.1, XYL2.2, xylitol dehydrogenase, xylitol dehydrogenase 2, xylitol-2-dehydrogenase
ECTree
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Expression
Expression on EC 1.1.1.9 - D-xylulose reductase
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D-xylose induces the enzyme expression leading to accumulation of xylitol
the engineered Gluconobacter oxydans strain PXPG is constructed to coexpress the endogenous XDH gene and the cofactor regeneration glucose dehydrogenase gene from Bacillus subtilis. Activities for both enzymes are more than twofold higher in the Gluconobacter oxydans PXPG than in the wild-type strain. Increasing the XDH activity and the cofactor NADH supply improves the xylitol productivity
the enzyme expression levels are increased with accumulation of xylitol
D-xylose induces the enzyme expression leading to accumulation of xylitol
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the engineered Gluconobacter oxydans strain PXPG is constructed to coexpress the endogenous XDH gene and the cofactor regeneration glucose dehydrogenase gene from Bacillus subtilis. Activities for both enzymes are more than twofold higher in the Gluconobacter oxydans PXPG than in the wild-type strain. Increasing the XDH activity and the cofactor NADH supply improves the xylitol productivity
the engineered Gluconobacter oxydans strain PXPG is constructed to coexpress the endogenous XDH gene and the cofactor regeneration glucose dehydrogenase gene from Bacillus subtilis. Activities for both enzymes are more than twofold higher in the Gluconobacter oxydans PXPG than in the wild-type strain. Increasing the XDH activity and the cofactor NADH supply improves the xylitol productivity
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the enzyme expression levels are increased with accumulation of xylitol
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