1.1.1.360: glucose/galactose 1-dehydrogenase
This is an abbreviated version!
For detailed information about glucose/galactose 1-dehydrogenase, go to the full flat file.
Reaction
Synonyms
dual-specific glucose/galactose dehydrogenase, GdhA, GlcDH, glucose (galactose) dehydrogenase, glucose/galactose dehydrogenase, TvGlcD
ECTree
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Engineering
Engineering on EC 1.1.1.360 - glucose/galactose 1-dehydrogenase
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D306N
E156Q
E296H
K159A
K159A/N160D
N160D
T277F
V93N
V93N/D306N
V93N/E156Q/K159A/N160D/D306N/E296H
V93N/K159A
V93N/K159A/N160D
V93N/N160D
D306N
-
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
-
K159A
N160D
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
D306N
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
E156Q
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
E296H
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
K159A
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
K159A/N160D
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
N160D
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
crystal structure of the T277F mutant enzyme in a binary complex with NADP+ and in a ternary complex with D-glucose and nicotinic acid adenine dinucleotide phosphate. The Vmax for the T277F mutant is about 12% of that for the wild-type enzyme
T277F
crystallization of the T277F mutant enzyme in a binary complex with NADP and in a ternary complex with D-glucose and nicotinic acid adenine dinucleotide phosphate, mutation reduces the D-glucose oxidation activity, the Vmax for the T277F mutant is about 12% of that for the wild-type enzyme
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
V93N
the Vmax value for D-glucose oxidation by the purified V93N mutant is about 71% of the Vmax value for the wild-type enzyme. Enhancement of the activity towards D-xylose is not observed
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
V93N/D306N
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
activity is completely abolished
V93N/E156Q/K159A/N160D/D306N/E296H
mutation completely abolished the activity of the enzyme
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
V93N/K159A
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
V93N/K159A/N160D
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
V93N/N160D
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
-
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
-
K159A
-
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
-
-
enhancement of the activity towards D-xylose is not observed, mutation reduces the D-glucose oxidation activity
-
N160D
-
improvement of the reactivity towards D-xylose can not be achieved, while the mutations reduces the D-glucose oxidation activity
-