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Beilstein J. Org. Chem. 2013, 9, 2434–2445, doi:10.3762/bjoc.9.281
Graphical Abstract
Scheme 1: Synthesis of D-tagatose from D-galactose using L-arabinose isomerase.
Scheme 2: Synthesis of D-psicose from D-fructose using D-tagatose 3-epimerase/D-psicose 3-epimerase.
Figure 1: The active site in D-psicose 3-epimerase (DPEase) in the presence of D-fructose, showing the metal ...
Scheme 3: Enzymatic synthesis of D-psicose using aldolase FucA.
Scheme 4: Proposed pathway of the D-sorbose synthesis from galactitol or L-glucitol.
Scheme 5: Simultaneous enzymatic synthesis of D-sorbose and D-psicose.
Scheme 6: Biosynthesis of L-tagatose.
Scheme 7: Preparative-scale synthesis of L-tagatose and L-fructose using aldolase.
Scheme 8: Biosynthesis of L-fructose.
Scheme 9: Preparative-scale synthesis of L-fructose using aldolase RhaD.
Scheme 10: Chemoenzymatically synthesis of 1-deoxy-L-fructose [8].
Scheme 11: Potential enzymes (isomerases) for the bioconversion of D-psicose to D-allose.
Scheme 12: Three-step bioconversion of D-glucose to D-allose.
Scheme 13: Biosynthesis of L-glucose.
Scheme 14: Enzymatic synthesis of L-talose and D-gulose.
Scheme 15: Enzymatic synthesis of L-galactose.
Scheme 16: Enzymatic synthesis of L-fucose.
Scheme 17: Synthesis of allitol from D-fructose using a multi-enzyme system.
Scheme 18: Biosynthesis of D-talitol via C-2 reduction of rare sugars.
Scheme 19: Biosynthesis of L-sorbitol via C-2 reduction of rare sugars.