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Journal article

Separate and Simultaneous enzymatic hydrolysis and fermentation of wheat hemicellulose with recombinant xylose utilizing Saccharomyces cerevisiae

By Olsson, Lisbeth1,2; Sørensen, H. R.; Dam, B. P; Krogh, Kristian Bertel Rømer Mørkeberg2; Meyer, Anne Boye Strunge2

From

Center for Microbial Biotechnology, Department of Systems Biology, Technical University of Denmark1

Department of Systems Biology, Technical University of Denmark2

Fermentations with three different xylose-utilizing recombinant Saccharomyces cerevisiae strains (F12, CR4, and CB4) were performed using two different wheat hemicellulose substrates, unfermented starch free fibers, and an industrial ethanol fermentation residue, vinasse. With CR4 and F12, the maximum ethanol concentrations obtained were 4.3 and 4 g/L, respectively, but F12 converted xylose 15% faster than CR4 during the first 24 h.

The comparison of separate hydrolysis and fermentation (SHF) and simultaneous saccharification and fermentation (SSF) with F12 showed that the highest, maximum ethanol concentrations were obtained with SSF. In general, the volumetric ethanol productivity was initially, highest in the SHF, but the overall volumetric ethanol productivity ended up being maximal in the SSF, at 0.013 and 0.010 g/Lh, with starch free fibers and vinasse, respectively.

Language: English
Publisher: Humana Press
Year: 2006
Pages: 117-129
Journal subtitle: Part A: Enzyme Engineering and Biotechnology
ISSN: 02732289 and 15590291
Types: Journal article
DOI: 10.1385/ABAB:129:1:117
ORCIDs: Meyer, Anne Boye Strunge
Keywords

Catalase Coculture Techniques Energy-Generating Resources Ethanol Fermentation Hydrolysis Industrial Waste Polysaccharides Recombinant Proteins Saccharomyces cerevisiae Species Specificity Triticum Xylose Xylose conversion ethanol hemicellulose starch free fibers vinasse

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