Masoud Mohammadi Farsani; Mohammad Mohammadi; Gholam Reza Ghezelbash; Ali Shahriari
Abstract
Erythritol as a non-caloric and non-cariogenic sweetener is safe for diabetics. Both microbial fermentation and chemical methods can be used to produce erythritol, but chemical methods failed to be industrialized due to their low efficiency. Moniliella tomentosa, Aureobasidium sp. ...
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Erythritol as a non-caloric and non-cariogenic sweetener is safe for diabetics. Both microbial fermentation and chemical methods can be used to produce erythritol, but chemical methods failed to be industrialized due to their low efficiency. Moniliella tomentosa, Aureobasidium sp. and Yarrowia lipolytica are industrial producers of erythritol. Erythrose reductase (ER) is a key enzyme in the biosynthesis of erythritol and catalyzes the final step in this pathway. Enzyme extract was obtained from Y. lipolytica by grinding cells with 0.5mm glass beads and ER activity was performed using 10 µl enzyme extract, 7.5 mM NADPH and 12 mM D-erythrose in potassium phosphate buffer (pH 7.5). Reaction was monitored with decreasing of NADPH absorbance in OD340 at 37 ˚C for 8 min by a microplate analyzer. In order to determine the activation energy (Ea), activity of enzyme was measured in 4-45 ˚C and results were analyzed with Kinetic software according to Arrhenius equation. The best enzyme activity of ER was 6.268 mU. One unit of ER activity was defined as the amount of enzyme that catalyzes the oxidation of 1μmol of NADPH per minute. Specific activity of enzyme was equal to 3.24U/mg and finally the Ea was determined to be 29.6208 KJ.ER specific activity in this study was lower than the only similar study that used Y. lipolytica. Purification, overexpression and optimizing the reaction can help to increase enzyme performance.