Xylitol production from lignocellulosic whole slurry corn cob by engineered industrial Saccharomyces cerevisiae PE-2

[Display omitted] •Saccharomyces cerevisiae PE-2 robust yeast was engineered for xylitol production.•Recombinant strains were physiological characterized in with xylose and glucose.•High xylitol yields (0.95–0.98 g/g) were obtained in batch and fed-batch cultures.•Efficient xylitol production was ob...

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Bibliographic Details
Published in:Bioresource technology 2018-11, Vol.267, p.481-491
Main Authors: Baptista, Sara L., Cunha, Joana T., Romaní, Aloia, Domingues, Lucília
Format: Article
Language:English
Subjects:
Corn cob hemicellulosic hydrolysate
GRE3 aldose reductase
Industrial Saccharomyces cerevisiae PE-2
Presaccharification and simultaneous
Presaccharification and simultaneous saccharification and fermentation (PSSF)
saccharification and fermentation (PSSF)
Science & Technology
Xylitol production
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Summary:[Display omitted] •Saccharomyces cerevisiae PE-2 robust yeast was engineered for xylitol production.•Recombinant strains were physiological characterized in with xylose and glucose.•High xylitol yields (0.95–0.98 g/g) were obtained in batch and fed-batch cultures.•Efficient xylitol production was obtained from non-detoxified corncob hydrolysates.•Corn cob whole slurry was used for xylitol production by SSF process. In this work, the industrial Saccharomyces cerevisiae PE-2 strain, presenting innate capacity for xylitol accumulation, was engineered for xylitol production by overexpression of the endogenous GRE3 gene and expression of different xylose reductases from Pichia stipitis. The best-performing GRE3-overexpressing strain was capable to produce 148.5 g/L of xylitol from high xylose-containing media, with a 0.95 g/g yield, and maintained close to maximum theoretical yields (0.89 g/g) when tested in non-detoxified corn cob hydrolysates. Furthermore, a successful integrated strategy was developed for the production of xylitol from whole slurry corn cob in a presaccharification and simultaneous saccharification and fermentation process (15% solid loading and 36 FPU) reaching xylitol yield of 0.93 g/g and a productivity of 0.54 g/L·h. This novel approach results in an intensified valorization of lignocellulosic biomass for xylitol production in a fully integrated process and represents an advance towards a circular economy.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2018.07.068