Establishment of the Biotransformation of D-Allulose and D-Allose Systems in Full-Red Jujube Monosaccharides.

In order to reduce sucrose content in jujube juice and prepare a jujube juice beverage rich in rare sugars, jujube juice was used as raw material for multienzyme catalysis in this study. The effects of single factors such as substrate, pH, DPE and L-RI addition ratio, enzyme treatment temperature, and metal ions on sucrose conversion and D-allulose formation in jujube juice were investigated. Changes in glucose, D-allulose, and D-allose contents in jujube juice before and after enzyme conversion were analyzed by high-performance liquid chromatography (HPLC). The results showed that 'Xiangfenmuzao' was more suitable for subsequent double enzyme coupling reactions in different varieties of jujube juice at different periods. Factors such as pH, DPE and L-RI enzyme ratio, temperature, and treatment time had significant effects on sucrose conversion and D-allulose production in 'Xiangfenmuzao' juice ( p < 0.05). When the ratio of DPE and L-RI was 1:10, pH was 7.5, and the temperature was 60 °C for 7 h, the fructose content in the full-red stage jujube juice of 'Xiangfenmuzao' and 'Jinsixiaozao' decreased gradually, and the final yield was about 53%. The yield of D-allulose was about 29%, and the yield of D-allulose was about 17%. In this study, DPE and L-RI were used to treat whole red jujube juice, which could effectively reduce sucrose content in jujube juice and obtain a functional jujube juice beverage that is low in calories and rich in rare sugar.