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United States Department of Agriculture

Agricultural Research Service

Research Project: MICROBIAL CATALYSTS TO PRODUCE FUEL ETHANOL AND VALUE ADDED PRODUCTS Title: Gmax Yeast Background Strain Made from Industrial Tolerant Saccharomyces Cerevisiae Engineered to Convert Pretreated Lignocellulosic Starch and Cellulosic Sugars Universally to Ethanol Anaerobically

Authors
item HUGHES, STEPHEN
item Takaki, Ken -
item MOSER, BRYAN
item DOLL, KENNETH
item Butt, Tauseef -
item Sterner, David -
item BISCHOFF, KENNETH
item HECTOR, RONALD
item Jones, Marge -
item Bang, Sookie -

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: April 21, 2009
Publication Date: April 21, 2009
Citation: Hughes, S.R., Tasaki, K., Moser, B., Doll, K., Butt, T., Sterner, D., Bischoff, K., Hector, R., Jones, M., and Bang, S. 2009. GMAX yeast background strain made from industrial tolerant Saccharomyces cerevisiae engineered to convert pretreated Lignocellulosic starch and cellulosic sugars universally to ethanol anaerobically [abstract]. Cambridge Healthtech Institute, Advanced Biofuels Development Summit. Abstract No. 2. p. 3.

Technical Abstract: Tailored GMAX yeast background strain technology for universal ethanol production industrially: Production of the stable baseline glucose, mannose, arabinose, xylose-utilizing (GMAX) yeast will be evaluated by taking the genes identified in high-throughput screening for a plasmid-based yeast to utilize xylose and glucose anaerobically for ethanol production. The use of the xylose isomerase gene from Piromyces in combination with a modified xylulokinase gene from bacteria plus the anaerobic growth genes from S. cerevisiae allowed anaerobic growth on xylose and glucose simultaneously for cellulosic ethanol production and to be the background strain for other co-product gene expressions such as a lipase or an insecticidal genes. The resulting stable transformed plasmids into any industrial yeast strains of Saccharomyces cervisiae that are already tolerant to environments in the production biorefinery are being developed for universal ethanol production from any feedstock provided. Initially a cellulosic strain will be produced with XI, XKS, and one or more of the anerobic xylose utilization genes for use on acid or base hydrolysates.

Last Modified: 9/10/2014
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