Fermentative Production of Erythritol from Cane Molasses Using Candida magnoliae: Media Optimization, Purification, and Characterization

Erythritol is a natural, zero-calorie sweetener that can be used as a sugar substitute and humectant for different products such as confectionaries, tablets, etc. Methods such as extraction and chemical synthesis for erythritol synthesis are not feasible or sustainable due to lower yield and higher...

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Bibliographic Details
Published in:Sustainability 2022-08, Vol.14 (16), p.10342
Main Authors: Seshadrinathan, Shruthy, Chakraborty, Snehasis
Format: Article
Language:English
Subjects:
Candida
Carbon
Crystals
Enzymes
Fermentation
Glucose
Glycerol
Liquid chromatography
Mannitol
Mass spectrometry
Mass spectroscopy
Operating costs
Optimization
Potassium phosphate
Potassium phosphates
Proteins
Purification
Reductases
Response surface methodology
Spectroscopy
Sucrose
Sugar industry
Sustainability
Syrups & sweeteners
Variables
Yeast
Yeasts
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Summary:Erythritol is a natural, zero-calorie sweetener that can be used as a sugar substitute and humectant for different products such as confectionaries, tablets, etc. Methods such as extraction and chemical synthesis for erythritol synthesis are not feasible or sustainable due to lower yield and higher operating costs. In the present study, erythritol is produced through the submerged fermentation of cane molasses, a by-product of the cane sugar industry, in the presence of the osmophilic yeast Candida magnoliae. Erythrose reductase enzyme assay was used for quantifying erythritol yield. Plackett–Burman’s design screened the three most influential factors viz. molasses, yeast extract, and KH2PO4 out of 12 contributing factors. Further, the concentration of molasses (200–300 g/L), yeast extract (9–12 g/L), and KH2PO4 (2–5 g/L) were optimized using response surface methodology coupled with numerical optimization. The optimized erythritol yield (99.54 g·L−1) was obtained when the media consisted of 273.96 g·L−1 molasses, 10.25 g·L−1 yeast extract, and 3.28 g·L−1 KH2PO4 in the medium. After purification, the liquid chromatography–mass spectrometry (LC-MS) analysis of erythritol crystals from this optimized fermentation condition showed 94% purity. Glycerol was produced as the side product (5.4%) followed by a trace amount of sucrose and mannitol. The molecular masses of the erythritol were determined through mass spectrometry by comparing [M + Na] + ions. Analysis in electrospray (ES) positive mode gave (m/z) of 145.12 [M + 23]. This study has reported a higher erythritol yield from molasses and used osmotolerant yeast Candida magnoliae to assimilate the sucrose from molasses.
ISSN:2071-1050
2071-1050
DOI:10.3390/su141610342