Dai Sato scite author profile

Dai Sato

2Publications

36Citation Statements Received

22Citation Statements Given

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Tottori University

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Genetic Engineering of Zymobacter palmae for Production of Ethanol from Xylose

Yanase

Sato

Yamamoto

et al. 2007

Appl Environ Microbiol

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Its metabolic characteristics suggest that Zymobacter palmae gen. nov., sp. nov. could serve as a useful new ethanol-fermenting bacterium, but its biotechnological exploitation will require certain genetic modifications. We therefore engineered Z. palmae so as to broaden the range of its fermentable sugar substrates to include the pentose sugar xylose. The Escherichia coli genes encoding the xylose catabolic enzymes xylose isomerase, xylulokinase, transaldolase, and transketolase were introduced into Z. palmae, where their expression was driven by the Zymomonas mobilis glyceraldehyde-3-phosphate dehydrogenase promoter. When cultured with 40 g/liter xylose, the recombinant Z. palmae strain was able to ferment 16.4 g/liter xylose within 5 days, producing 91% of the theoretical yield of ethanol with no accumulation of organic acids as metabolic by-products. Notably, xylose acclimation enhanced both the expression of xylose catabolic enzymes and the rate of xylose uptake into recombinant Z. palmae, which enabled the acclimated organism to completely and simultaneously ferment a mixture of 40 g/liter glucose and 40 g/liter xylose within 8 h, producing 95% of the theoretical yield of ethanol. Thus, efficient fermentation of a mixture of glucose and xylose to ethanol can be accomplished by using Z. palmae expressing E. coli xylose catabolic enzymes.

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Ethanol production from cellobiose by Zymobacter palmae carrying the Ruminocuccus albus β-glucosidase gene

Yanase

Yamamoto

Sato

et al. 2005

Journal of Biotechnology

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Dai Sato

Genetic Engineering of Zymobacter palmae for Production of Ethanol from Xylose

Ethanol production from cellobiose by Zymobacter palmae carrying the Ruminocuccus albus β-glucosidase gene

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