1.1.1.431: D-xylose reductase (NADPH)
This is an abbreviated version!
For detailed information about D-xylose reductase (NADPH), go to the full flat file.
Reaction
Synonyms
ALR1, Cb-XR, CbXR, CtXR, D-xylose reductase, D-xylose reductase 1, D-xylose reductase 2, D-xylose reductase 3, DnXR, GRE3, monospecific xylose reductase, More, msXR, NAD(P)H-dependent D-xylose reductase, NAD(P)H-dependent xylose reductase, NADPH dependent D-xylose reductase, NADPH-dependent D-xylose reductase II,III, NADPH-dependent xylose reductase, NADPH-preferring xylose reductase, NRRL3_10868, SsXR, Texr, TrxR, XR1, XR2, XR3, XRTL, XYL1, xylose reductase, xyr8, XyrA, XyrB
ECTree
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Application
Application on EC 1.1.1.431 - D-xylose reductase (NADPH)
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synthesis
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dual specific xylose reductase (dsXR) has an about 4fold higher specificity for NADH than NADPH. This fact could make this enzyme an interesting candidate to be used in metabolic engineering of the yeast xylose metabolism, likely in Saccharomyces cerevisiae. Increased levels of dsXR activity could contribute to an improvement of ethanol production from D-xylose by reducing the cofactor imbalance of the initial catabolic pathway
synthesis
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the enzyme is useful for xylitol bioproduction, profiles, overview
synthesis
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fermentation of mixed glucose-xylose substrates in Saccharomyces cerevisiae strains BP10001 and BP000, expressing Candida tenuis xylose reductase in mutated NADH-preferring form and NADPH-preferring wild-type form, respectively. Glucose and xylose, each at 10 g/l, are converted sequentially. The distribution of fermentation products from glucose is identical for both strains whereas when using xylose, BP10001 shows enhanced ethanol yield and decreased yields of xylitol and glycerol as compared to BP000. Increase in xylose concentration from 10 to 50 g/l results in acceleration of substrate uptake by BP10001 and reduction of the xylitol yield. In mixed substrate batches, xylose is taken up at low glucose concentrations and up to 5fold enhanced xylose uptake rate is found towards glucose depletion
synthesis
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expression in Phanerochaete sordida YK-624 results in increased xylitol production and markedly higher xylose reductase activities than in the wild-type strain
synthesis
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in fermentation for citric acid production and xylitol accumulation by using D-xylose as the sole carbon source, a sttrain carrying mutant K274R shows a 2.8fold reduction in xylitol accumulation and 4.5fold increase in citric acid production compared to the wild-type strain
synthesis
overexpression of D-xylose reductase Xyl1 gene and antisense inhibition of D-xylulokinase XyiH gene result in increase in xylitol production from 22.8 mM to 24.8 mM
synthesis
expression of wild-type Xyl1 or an NADH-specific mutant in Saccharomyces cerevisiae. The Xyl1 mutant decreases the biocatalyst's performance, suggesting use of the NADPH-preferring wild-type enzyme when (semi-)aerobic conditions are applied. In a bioreactor process, the best-performing strain converts 40 g/l xylose with an initial productivity of 1.16 g/l/h and a xylitol yield of 100%
synthesis
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the enzyme is useful for xylitol bioproduction, profiles, overview
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synthesis
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the enzyme is useful for xylitol bioproduction, profiles, overview
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synthesis
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in fermentation for citric acid production and xylitol accumulation by using D-xylose as the sole carbon source, a sttrain carrying mutant K274R shows a 2.8fold reduction in xylitol accumulation and 4.5fold increase in citric acid production compared to the wild-type strain
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