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Review on D-Allulose: In vivo Metabolism, Catalytic Mechanism, Engineering Strain Construction, Bio-Production Technology

Suwei Jiang, Wei Xiao, Xingxing Zhu, Peizhou Yang, Zhi Zheng, Shuhua Lu, Shaotong Jiang, Guochang Zhang, Jingjing Liu

2020Frontiers in Bioengineering and Biotechnology74 citationsDOIOpen Access PDF

Abstract

Rare sugar D-allulose as a substitute sweetener is produced through the isomerization of D-fructose by D-tagatose 3-epimerases (DTEases) or D-allulose 3-epimerases (DAEases). D-Allulose is a kind of low energy monosaccharide sugar naturally existing in some fruits in very small quantities. D-Allulose not only possesses high value as a food ingredient and dietary supplement, but also exhibits a variety of physiological functions serving as improving insulin resistance, antioxidant enhancement, and hypoglycemic controls, and so forth. Thus, D-allulose has an important development value as an alternative to high-energy sugars. This review provided a systematic analysis of D-allulose characters, application, enzymatic characteristics and molecular modification, engineered strain construction, and processing technologies. The existing problems and its proposed solutions for D-allulose production are also discussed. More importantly, a green and recycling process technology for D-allulose production is proposed for low waste formation, low energy consumption, and high sugar yield.

Topics & Concepts

IngredientSugarBiochemical engineeringFructoseChemistryBiotechnologyFood scienceBiochemistryEngineeringBiologyDiet, Metabolism, and Disease
Review on D-Allulose: In vivo Metabolism, Catalytic Mechanism, Engineering Strain Construction, Bio-Production Technology | Litcius