Molecular cloning and functional expression of a novelNeurospora crassa xylose reductase inSaccharomyces cerevisiae in the development of a xylose fermenting strain |
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Authors: | Vasudevan Thanvanthri Gururajan Isak S. Pretorius Ricardo R. Cordero Otero |
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Affiliation: | 1. Institute for Wine Biotechnology, University of Stellenbosch, Private Bag X1, ZA-7602, Matieland (Stellenbosch), South Africa 2. The Australian Wine Research Institute, PO Box-197, SA-5064, Glen Osmond (Adelaide), Australia
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Abstract: | The development of a xylose-fermentingSaccharomyces cerevisiae yeast would be of great benefit to the bioethanol industry. The conversion of xylose to ethanol involves a cascade of enzymatic reactions and processes. Xylose (aldose) reductases catalyse the conversion of xylose to xylitol. The aim of this study was to clone, characterise and express a cDNA copy of a novel aldose reductase (NCAR-X) from the filamentous fungusNeurospora crassa inS. cerevisiae. NCAR-X harbours an open reading frame (ORF) of 900 nucleotides. This ORF encodes a protein (NCAR-X, assigned NCBI protein accession ID: XP_956921) consisting of 300 amino acids, with a predicted molecular weight of 34 kDa. TheNCAR-X-encoded aldose reductase showed significant homology to the xylose reductases ofCandida tenuis andPichia stipitis. WhenNCAR-X was expressed under the control of phosphoglycerate kinase I gene (PGK1) regulatory sequences inS. cerevisiae, its expression resulted in the production of biologically active xylose reductase. Small-scale oxygen-limited xylose fermentation with theNCAR-X containingS. cerevisiae strains resulted in the production of less xylitol and at least 15% more ethanol than the strains transformed with theP. stipitis xylose reductase gene (PsXYL1). TheNCAR-X-encoded enzyme produced byS. cerevisiae was NADPH-dependent and no activity was observed in the presence of NADH. The co-expression of theNCAR-X andPsXYL1 gene constructs inS. cerevisiae constituted an important part of an extensive research program aimed at the development of xylolytic yeast strains capable of producing ethanol from plant biomass. |
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