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The Characterization of a Novel D-allulose 3-Epimerase from Blautia produca and Its Application in D-allulose Production

Xinrui Tang, Yingfeng An, Muhammad Waheed Iqbal, Hongri Cong, Guoyan Zhang, Yufei Zhang, Yuvaraj Ravikumar, Hossain M. Zabed, Mei Zhao, Haixing Zhou, Xianghui Qi

2022Foods29 citationsDOIOpen Access PDF

Abstract

D-allulose is a natural rare sugar with important physiological properties that is used in food, health care items, and even the pharmaceutical industry. In the current study, a novel D-allulose 3-epimerase gene (Bp-DAE) from the probiotic strain Blautia produca was discovered for the production and characterization of an enzyme known as Bp-DAE that can epimerize D-fructose into D-allulose. Bp-DAE was strictly dependent on metals (Mn2+ and Co2+), and the addition of 1 mM of Mn2+ could enhance the half-life of Bp-DAE at 55 °C from 60 to 180 min. It exhibited optimal activity in a pH of 8 and 55 °C, and the Km values of Bp-DAE for the different substrates D-fructose and D-allulose were 235.7 and 150.7 mM, respectively. Bp-DAE was used for the transformation from 500 g/L D-fructose to 150 g/L D-allulose and exhibited a 30% of conversion yield during biotransformation. Furthermore, it was possible to employ the food-grade microbial species Bacillus subtilis for the production of D-allulose using a technique of whole-cell catalysis to circumvent the laborious process of enzyme purification and to obtain a more stable biocatalyst. This method also yields a 30% conversion yield.

Topics & Concepts

Bacillus subtilisFructoseYield (engineering)BiotransformationChemistryEnzymeSugarTransformation (genetics)BiochemistryFood scienceBacteriaBiologyGeneMaterials scienceGeneticsMetallurgyDiet, Metabolism, and Disease
The Characterization of a Novel D-allulose 3-Epimerase from Blautia produca and Its Application in D-allulose Production | Litcius