1.1.99.29: pyranose dehydrogenase (acceptor)
This is an abbreviated version!
For detailed information about pyranose dehydrogenase (acceptor), go to the full flat file.
Word Map on EC 1.1.99.29
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1.1.99.29
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agaricus
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meleagris
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basidiomycete
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cellobiose
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flavin-dependent
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synthesis
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bisporus
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biofuel production
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lignocellulose
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analysis
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pqq-dependent
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benzoquinone
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coprinopsis
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glucose-methanol-choline
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2-oxidase
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osmium
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pqq
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litter-decomposing
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quinohemoprotein
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ferricenium
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bioanode
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1.1.3.10
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biotechnology
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carbohydrate-active
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corynascus
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bioelectrochemical
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1,4-benzoquinone
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molecular biology
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wood-rotting
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bioelectrocatalysis
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degradation
- 1.1.99.29
- agaricus
- meleagris
-
basidiomycete
- cellobiose
-
flavin-dependent
- synthesis
- bisporus
- biofuel production
- lignocellulose
- analysis
-
pqq-dependent
- benzoquinone
-
coprinopsis
-
glucose-methanol-choline
-
2-oxidase
-
osmium
- pqq
-
litter-decomposing
-
quinohemoprotein
- ferricenium
-
bioanode
-
1.1.3.10
- biotechnology
-
carbohydrate-active
- corynascus
-
bioelectrochemical
- 1,4-benzoquinone
- molecular biology
-
wood-rotting
-
bioelectrocatalysis
- degradation
Reaction
Synonyms
AbPDH1, dehydrogenase, pyranose 2/3-, PDH, PDH AM, PDH AX, PDH1, PDH2, PDH3, pyranose 2-dehydrogenase, pyranose 2/3-dehydrogenase, pyranose 3-dehydrogenase, pyranose dehydrogenase, pyranose dehydrogenase 1, pyranose dehydrogenase 2, pyranose dehydrogenase 3, pyranose-quinone oxidoreductase, pyranose/acceptor oxidoreductase, pyranose:acceptor oxidoreductase, pyranose:quinone acceptor 2-oxidoreductase, quinone-dependent pyranose dehydrogenase
ECTree
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Application
Application on EC 1.1.99.29 - pyranose dehydrogenase (acceptor)
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analysis
biofuel production
biotechnology
degradation
molecular biology
synthesis
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pyranose dehydrogenase is a promising candidate for enzymatic sensors of various sugars
analysis
pyranose dehydrogenase is a promising candidate for enzymatic sensors of various sugars
analysis
pyranose dehydrogenase is a promising candidate for enzymatic sensors of various sugars
analysis
pyranose dehydrogenase is a promising candidate for enzymatic sensors of various sugars
analysis
pyranose dehydrogenase is a promising candidate for enzymatic sensors of various sugars
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pyranose dehydrogenase is a promising candidate for the anodic reaction in enzymatic biofuel cells powered by carbohydrate mixtures
biofuel production
pyranose dehydrogenase is a promising candidate for the anodic reaction in enzymatic biofuel cells powered by carbohydrate mixtures
biofuel production
pyranose dehydrogenase is a promising candidate for the anodic reaction in enzymatic biofuel cells powered by carbohydrate mixtures
biofuel production
pyranose dehydrogenase is a promising candidate for the anodic reaction in enzymatic biofuel cells powered by carbohydrate mixtures
biofuel production
pyranose dehydrogenase is a promising candidate for the anodic reaction in enzymatic biofuel cells powered by carbohydrate mixtures
Q3L1D2
PDH could be a very interesting alternative to pyranose oxidase for applications in biotechnology or biofuel cells, electrical wiring of the enzyme bound to graphite rod electrodes is studied
biotechnology
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PDH is an alternative to pyranose oxidase for applications in biotechnology or biofuel cells, electrical wiring of the enzyme bound to graphite rod electrodes is studied
biotechnology
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PDH can be very efficiently wired with osmium polymers having E°' values close to that of PDH
gene expression analysis using PCR, pdh1 expression is upregulated upon exhaustion of the carbon source and appears to be additionally regulated under conditions of oxygen limitation, PDH production is highest on cellobiose and very low on fructose
molecular biology
gene expression analysis using PCR, pdh2 is constitutively expressed, PDH production is highest on cellobiose and very low on fructose
molecular biology
gene expression analysis using PCR, pdh3 is constitutively expressed, PDH production is highest on cellobiose and very low on fructose
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PDH catalysis with 1,4-benzoquinone as an oxidant provides biocatalytic sugar chemistry with a new convenient tool for high yield production of 3-keto-oligosaccharides and 3-keto-glycosides
synthesis
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possible use in the preparation of rare di- and tricarbonyl sugar derivatives
synthesis
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pyranose dehydrogenase is a promising candidate for the production of di- and tri-carbonyl sugar derivatives as chiral intermediates for the synthesis of rare sugars, novel drugs and fine chemicals
synthesis
pyranose dehydrogenase is a promising candidate for the production of di- and tri-carbonyl sugar derivatives as chiral intermediates for the synthesis of rare sugars, novel drugs and fine chemicals
synthesis
pyranose dehydrogenase is a promising candidate for the production of di- and tri-carbonyl sugar derivatives as chiral intermediates for the synthesis of rare sugars, novel drugs and fine chemicals
synthesis
pyranose dehydrogenase is a promising candidate for the production of di- and tri-carbonyl sugar derivatives as chiral intermediates for the synthesis of rare sugars, novel drugs and fine chemicals
synthesis
pyranose dehydrogenase is a promising candidate for the production of di- and tri-carbonyl sugar derivatives as chiral intermediates for the synthesis of rare sugars, novel drugs and fine chemicals
synthesis
-
possible use in the preparation of rare di- and tricarbonyl sugar derivatives
-
synthesis
-
PDH catalysis with 1,4-benzoquinone as an oxidant provides biocatalytic sugar chemistry with a new convenient tool for high yield production of 3-keto-oligosaccharides and 3-keto-glycosides
-