1.1.5.9: glucose 1-dehydrogenase (FAD, quinone)
This is an abbreviated version!
For detailed information about glucose 1-dehydrogenase (FAD, quinone), go to the full flat file.
Word Map on EC 1.1.5.9
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1.1.5.9
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electrode
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bioanode
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transfer-type
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bioelectrocatalytic
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glomerella
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fungi-derived
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analysis
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cingulata
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biofuel production
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diagnostics
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medicine
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biotechnology
- 1.1.5.9
-
electrode
-
bioanode
-
transfer-type
-
bioelectrocatalytic
- glomerella
-
fungi-derived
- analysis
- cingulata
- biofuel production
- diagnostics
- medicine
- biotechnology
Reaction
Synonyms
D-glucose:acceptor 1-oxidoreductase, dehydrogenase, glucose (acceptor), dehydrogenase, glucose (Aspergillus), EC 1.1.99.10, FAD dependent glucose dehydrogenase, FAD glucose dehydrogenase, FAD-dependent GDH, FAD-dependent glucose dehydrogenase, FAD-GDH, FAD-glucose dehydrogenase, FAD-glucose dehydrogenases, FADGDH, FADGH, flavin adenine dinucleotide dependent glucose dehydrogenase, flavin adenine dinucleotide-dependent glucose dehydrogenase, GDH, GDH-FAD, GLD, glucose dehydrogenase, glucose dehydrogenase (Aspergillus), glucose dehydrogenase (decarboxylating), thermostable GDH, thermostable glucose dehydrogenase
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General Information
General Information on EC 1.1.5.9 - glucose 1-dehydrogenase (FAD, quinone)
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evolution
physiological function
additional information
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amperometric glucose biosensor utilizing FAD-dependent glucose dehydrogenase immobilized on nanocomposite electrode. Unlike the common glucose oxidase based biosensor, the presented biosensors is O2-independent, method and biosensorevlauation, overview. Polyphenols also do not interfere at used measuring conditions. Determination of D-glucose in beverages and wines using biosensors, HPLC and enzymatic-spectrophotometric assay, overview
evolution
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the enzyme belongs to the to the GMC family of oxidoreductases, phylogenetic analysis
evolution
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the enzyme belongs to the to the GMC family of oxidoreductases, phylogenetic analysis
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the enzyme from Glomerella cingulata might play a role in plant pathogenicity. The quinone and phenoxy radical reducing enzyme light act to neutralize the action of plant laccase, phenoloxidase or peroxidase activities, which are increased in infected plants to evade fungal attack
physiological function
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the enzyme from Glomerella cingulata might play a role in plant pathogenicity. The quinone and phenoxy radical reducing enzyme light act to neutralize the action of plant laccase, phenoloxidase or peroxidase activities, which are increased in infected plants to evade fungal attack
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