Fig. 1. Bio-conversion of D-allulsoe from D-fructose by enzymes from microorganisms. DTEase and DAEase mean D-tagatose 3-epimerase and D-Allulose 3-epimerase, respectively .
Fig. 2. Rare sugars produced by epimerization reaction of DTEase and DAEase. Various rare sugars can be produced by epimerization at a C-3 position on D,L-form aldo-hexoses, keto-hexoses, aldo-pentoses, and keto-pentoses by DTEase and DAEase from environmental microorganisms.
Fig. 3. Bio-conversion of D-allose from D-allulose by enzymes from microorganisms. RipB, LacAB, and Rhalase mean Ribose 5-phosphate isomerase, Galactose 6-phosphate isomerase, and L-rhamnose isomerase, respectively.
Fig. 4. Rare sugars produced by Isomerization reaction of Rhalase, RpiB, and LacAB. Various rare sugars can be produced by isomerization of aldo-hexoses and aldo-pentoses having hydroxyl groups oriented in the right-handed configuration at C-2, C-3 or C-2, C-3, C-4 position by Rhalase, RpiB, and LacAB from environmental microorganisms.
Fig. 5. Bio-conversion of D-tagatose from D-galactose by enzymes from microorganisms. Arabiase means L-arabinose isomerase.
Fig. 6. Rare sugars produced by Isomerization reaction of Arabiase. Various rare sugars can be produced by isomerization of aldo-hexoses and aldo-pentoses having hydroxyl groups oriented in the right-handed and lefthanded configuration at C-2 and C-3 position, respectively by Arabiase from environmental microorganisms.
Table 1. Functions and applications of rare sugars
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