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Bioscience, Biotechnology, and Biochemistry Volume 72, 2008 - Issue 5
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Original Articles

Efficient and Direct Fermentation of Starch to Ethanol by Sake Yeast Strains Displaying Fungal Glucoamylases

Atsushi KOTAKAResearch Institute, Gekkeikan Sake Co., Ltd.
,
Hiroshi SAHARAResearch Institute, Gekkeikan Sake Co., Ltd.
,
Yoji HATAResearch Institute, Gekkeikan Sake Co., Ltd.
,
Yasuhisa ABEResearch Institute, Gekkeikan Sake Co., Ltd.
,
Akihiko KONDODepartment of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
,
Michiko KATO-MURAIDivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
,
Kouichi KURODADivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
&
Mitsuyoshi UEDADivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
 show all
Pages 1376-1379 | Received 25 Dec 2007, Accepted 19 Feb 2008, Published online: 22 May 2014

  • 1) Murai, T., Ueda, M., Yamamura, M., Atomi, H., Shibasaki, Y., Kamasaka, N., Osumi, M., Amachi, T., and Tanaka, A., Construction of starch-utilizing yeast by cell surface engineering. Appl. Environ. Microbiol., 63, 1362–1366 (1997).
  • 2) Hata, Y., Ishida, H., Kojima, Y., Ichikawa, E., Kawato, A., Suginami, K., and Imayasu, S., Comparison of two glucoamylases produced by Aspergillus oryzae in solid-state culture (koji) and in submerged culture. J. Ferment. Bioeng., 84, 532–537 (1997).
  • 3) Hata, Y., Ishida, H., Ichikawa, E., Kawato, A., Suginami, K., and Imayasu, S., Nucleotide sequence of an alternative glucoamylase-encoding gene (glaB) expressed in solid-state culture of Aspergillus oryzae. Gene, 207, 127–134 (1998).
  • 4) Shobayashi, M., Mitsueda, S., Ago, M., Fujii, T., Iwashita, K., and Iefuji, H., Effect of culture conditions on ergosterol biosynthesis by Saccharomyces cerevisiae. Biosci. Biotechnol. Biochem., 69, 2381–2388 (2005).
  • 5) Wu, H., Zheng, X., Araki, Y., Sahara, H., Takagi, H., and Shimoi, H., Global gene expression analysis of yeast cells during sake brewing. Appl. Environ. Microbiol., 72, 7353–7358 (2006).
  • 6) Ito, H., Fukuda, K., Murata, K., and Kimura, H., Transformation of intact yeast cells treated with alkali cations. J. Bacteriol., 153, 163–168 (1983).
  • 7) Kimura, K., Kitamoto, K., Gomi, K., and Kumagai, C., Introduction and expression of cDNA encoding Aspergillus oryzae α-amylase to sake yeast. J. Brew. Soc. Japan (in Japanese), 88, 233–237 (1993).
  • 8) Shimoi, H., Sakamoto, K., Okuda, M., Atthi, R., Iwashita, K., and Ito, K., The AWA1 gene is required for the foam-forming phenotype and cell surface hydrophobicity of sake yeast. Appl. Environ. Microbiol., 68, 2018–2025 (2002).
  • 9) Tanaka, Y., Ashikari, T., Nakamura, N., Kiuchi, N., Shibano, Y., Amachi, T., and Yoshizumi, H., Glucoamylase produced by Rhizopus and by a recombinant yeast containing the Rhizopus glucoamylase gene. Agric. Biol. Chem., 50, 1737–1742 (1986).
  • 10) Washida, M., Takahashi, S., Ueda, M., and Tanaka, A., Spacer-mediated display of active lipase on the yeast cell surface. Appl. Microbiol. Biotechnol., 56, 681–686 (2001).

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