5.3.1.5: xylose isomerase
This is an abbreviated version!
For detailed information about xylose isomerase, go to the full flat file.
Word Map on EC 5.3.1.5
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5.3.1.5
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isomerization
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biomass
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d-glucose
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xylitol
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xylulokinase
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pentose
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lignocellulosic
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isomerases
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syrup
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corn
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gi
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d-fructose
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rubiginosus
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bioethanol
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piromyces
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arthrobacter
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l-arabinose
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synthesis
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actinoplanes
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high-fructose
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xylose-fermenting
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transaldolase
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saccharification
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thermoanaerobacter
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co-fermentation
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hemicellulosic
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thermoanaerobacterium
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neapolitana
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stipitis
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energy production
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orpinomyces
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thermosulfurogenes
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xylose-utilizing
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diauxic
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food industry
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nutrition
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biotechnology
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degradation
- 5.3.1.5
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isomerization
- biomass
- d-glucose
- xylitol
- xylulokinase
- pentose
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lignocellulosic
- isomerases
- syrup
- corn
- gi
- d-fructose
- rubiginosus
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bioethanol
- piromyces
- arthrobacter
- l-arabinose
- synthesis
- actinoplanes
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high-fructose
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xylose-fermenting
- transaldolase
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saccharification
- thermoanaerobacter
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co-fermentation
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hemicellulosic
- thermoanaerobacterium
- neapolitana
- stipitis
- energy production
- orpinomyces
- thermosulfurogenes
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xylose-utilizing
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diauxic
- food industry
- nutrition
- biotechnology
- degradation
Reaction
Synonyms
D-XI, D-xylose aldose-ketose-isomerase, D-xylose isomerase, D-Xylose ketoisomerase, D-xylose ketol isomerase, D-xylose ketol-isomerase, D-xylose: ketol-isomerase, D-xylulose keto-isomerase, glucose isomerase, glucose/xylose isomerase, GXI, Isomerase, xylose, Maxazyme, Optisweet, SDXyI, Spezyme, Sweetase, Sweetzyme, Sweetzyme Q, Swetase, T80 xylose isomerase, TcaXI, TNXI, TthXI, XI, XYLA, XylC, xylose (glucose) isomerase, xylose isomerase
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Application
Application on EC 5.3.1.5 - xylose isomerase
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biotechnology
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putative use of lignocellulosic biomass as feedstock for the chemical industry
degradation
energy production
food industry
nutrition
synthesis
enzyme additionally displays xylose fermenting activity. A Saccharomyces cerevisae strain coexpressing xylose isomerase and endo-1,4-beta-xylanase Xyn11B from Saccharophagus degradans, and beta-xylosidase XlnD from Aspergillus niger is able to produce 6.0 g/l ethanol from xylan
degradation
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enzyme additionally displays xylose fermenting activity. A Saccharomyces cerevisae strain coexpressing xylose isomerase and endo-1,4-beta-xylanase Xyn11B from Saccharophagus degradans, and beta-xylosidase XlnD from Aspergillus niger is able to produce 6.0 g/l ethanol from xylan
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energy production
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engineering of Saccharomyces cerevisiae for alcoholic fermentation of D-xylose
energy production
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engineering Saccharomyces cerevisiae for alcoholic fermentation of D-xylose
energy production
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genetic engineering of Saccharomyces cerevisiae in order to increase ethanol production by fermentation of D-xylose
energy production
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genetic engineering of the yeast Hansenula polymorpha in order to increase ethanol production by D-xylose fermentation
energy production
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genetic engineering of Zymobacter palmae in order to produce ethanol from xylose fermentation
energy production
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genetic engineering of the yeast Hansenula polymorpha in order to increase ethanol production by D-xylose fermentation
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thermophilic xylose isomerase from Opuntia vulgaris can serve as a good alternate source of enzyme for use in the production of high fructose corn syrup
food industry
Opuntia vulgaris
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thermophilic xylose isomerase from Opuntia vulgaris can serve as a good alternate source of enzyme for use in the production of high fructose corn syrup
food industry
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xylose isomerase is widely used for production of glucose fructose syrup, a natural sweetener in dietary and preventive nutrition
food industry
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xylose isomerase isozyme T80 serves as potential alternate catalytic converter of glucose in the production of high-fructose corn syrup for the sweetener industry and for ethanol production
food industry
industrial production of high fructose corn syrup
food industry
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xylose isomerase is widely used for production of glucose fructose syrup, a natural sweetener in dietary and preventive nutrition
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used in industry for the production of high-fructose corn syrups
synthesis
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commercial importance in the production of high-fructose corn syrup, potential application in the production of ethanol from hemicelluloses
synthesis
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commercial importance in the production of high-fructose corn syrup, potential application in the production of ethanol from hemicelluloses
synthesis
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commercial importance in the production of high-fructose corn syrup, potential application in the production of ethanol from hemicelluloses
synthesis
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commercial importance in the production of high-fructose corn syrup, potential application in the production of ethanol from hemicelluloses
synthesis
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production of fructose, which is used as an alternate sugar to sucrose or invert sugar in the food and beverage industries, it is also used in the baking and dairy industry
synthesis
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production of fructose, which is used as an alternate sugar to sucrose or invert sugar in the food and beverage industries, it is also used in the baking and dairy industry
synthesis
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production of fructose, which is used as an alternate sugar to sucrose or invert sugar in the food and beverage industries, it is also used in the baking and dairy industry
synthesis
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production of fructose, which is used as an alternate sugar to sucrose or invert sugar in the food and beverage industries, it is also used in the baking and dairy industry
synthesis
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higher rates of xylose utilization by further improved strains make alcoholic fermentation of hemicellulose fractions of plant biomass a realistic enterprise
synthesis
alcohol fermentation of xylose and mixed sugars by Saccharomyces cerevisiae constitutively overexpressing of the Orpinomyces sp. xylose isomerase, the Saccharomyces cerevisiae xylulokinase, and the Pichia stipitis SUT1 sugar transporter genes. A strain adapted for enhanced growth on xylose by serial transfer in xylose-containing minimal medium under aerobic conditions can ferment 20 g per l of xylose to ethanol with a yield of 0.37 g per g and production rate of 0.026 g per l and h. Raising the fermentation temperature from 30°C to 35°C results in a substantial increase in the ethanol yield and production as well as a significant reduction in the xylitol yield. Ethanol production from xylose and a mixture of glucose and xylose is achieved in complex medium containing yeast extract, peptone, and borate with a considerably high yield of 0.48 g per g
synthesis
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co-overexpression of xylose isomerase and endogenous xylulokinase in a Hansenula polymorpha strain lacking NAD(P)H-dependent xylose reductase and NAD-dependent xylitol dehydrogenases activities. Recombinant strain displays improved ethanol production during the fermentation of xylose
synthesis
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expression of Escherichia coli xylose isomerase and xylulokinase in Pseudomonas putida S12 for efficient utilization of D-xylose and L-arabinose. After laboratory evolution of strains by repeated transfer to fresh minimal medium with xylose, a strain that efficiently utilizes xylose at a considerably improved growth rate can be obtained. The high yield can be attributed in part to glucose dehydrogenase inactivity, whereas the improved growth rate may be connected to alterations in the primary metabolism. The evolved D-xylose-utilizing strain metabolizes L-arabinose as efficiently as D-xylose, while its ability to utilize glucose is not affected
synthesis
the combination of TxyA, XloA, and XylA is useful tool for the D-xylulose production from beta-1,3-xylan
synthesis
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co-overexpression of xylose isomerase and endogenous xylulokinase in a Hansenula polymorpha strain lacking NAD(P)H-dependent xylose reductase and NAD-dependent xylitol dehydrogenases activities. Recombinant strain displays improved ethanol production during the fermentation of xylose
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synthesis
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the combination of TxyA, XloA, and XylA is useful tool for the D-xylulose production from beta-1,3-xylan
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