Improved operational stability of d -psicose 3-epimerase by a novel protein engineering strategy, and d -psicose production from fruit and vegetable residues
Copyright policy )Improved operational stability of d -psicose 3-epimerase by a novel protein engineering strategy, and d -psicose production from fruit and vegetable residues
The aim of the present work was to improve stability of d-psicose 3-epimerase and biotransformation of fruit and vegetable residues for d-psicose production. The study established that N-terminal fusion of a yeast homolog of SUMO protein - Smt3 - can confer elevated optimal temperature and improved operational stability to d-psicose 3-epimerase. The Smt3-d-psicose 3-epimerase conjugate system exhibited relatively better catalytic efficiency, and improved productivity in terms of space-time yields of about 8.5kgL(-1)day(-1). It could serve as a promising catalytic tool for the pilot scale production of the functional sugar, d-psicose. Furthermore, a novel approach for economical production of d-psicose was developed by enzymatic and microbial bioprocessing of fruit and vegetable residues, aimed at epimerization of in situd-fructose to d-psicose. The bioprocessing led to achievement of d-psicose production to the extent of 25-35% conversion (w/w) of d-fructose contained in the sample.
Ions, Racemases and Epimerases, Temperature, Fructose, Hydrogen-Ion Concentration, Protein Engineering, Catalysis, Recombinant Proteins, Molecular Weight, Kinetics, Protein Subunits, Metals, Fruit, Vegetables, Cloning, Molecular
Ions, Racemases and Epimerases, Temperature, Fructose, Hydrogen-Ion Concentration, Protein Engineering, Catalysis, Recombinant Proteins, Molecular Weight, Kinetics, Protein Subunits, Metals, Fruit, Vegetables, Cloning, Molecular
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