EC Number |
Application |
Reference |
---|
1.1.1.406 | synthesis |
as an enzyme capable of the stereo- and regioselective modification of carbohydrates, GatDH exhibits a high potential for application in biotechnology as a biocatalyst, e.g. preparation of several (R)-1,2-diols by racemic resolution with GatDH as well as the synthesis of several S-configured aliphatic alcohols by reducing corresponding prochiral ketones |
-, 712439 |
1.1.1.406 | synthesis |
galactitol dehydrogenase is coupled with water-forming NADH oxidase for efficient enzymatic synthesis of L-tagatose (a building block in the production of many value-added chemicals) |
763518 |
1.1.1.406 | synthesis |
preparation of optically pure aliphatic diols by enzymic oxidation of one enantiomer or stereospecific reduction of keto-alcohols or diketones |
655250 |
1.1.1.406 | synthesis |
synthesis of (S)-1,2-propanediol and L-tagatose starting from hydroxyacetone and galactitol using an immobilized enzyme system. One-pot purification of His6-tagged GatDH and FDH followed by the production of rare sugar and chiral diol by use of affinity magnetic nanoparticles |
722848 |
1.1.1.406 | synthesis |
the two oxidoreductases, xylose reductase and galactitol dehydrogenase are functionally expressed in the engineered yeast (EJ2g_pXpG) and enable direct production of tagatose from lactose. The expression levels of the enzymes are adjusted to maximize tagatose production. The resulting engineered yeast produces 37.69 g/L of tagatose from lactose with a tagatose and galactose ratio of 9:1 in the reaction broth |
761971 |