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Ethanol Production from Sweet Sorghum Juice at High Temperatures Using a Newly Isolated Thermotolerant Yeast Saccharomyces cerevisiae DBKKU Y-53

Author

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  • Sunan Nuanpeng

    (Graduate School, Khon Kaen University, Khon Kaen 40002, Thailand
    Department of Biotechnology, Faculty of Technology, Khon Kaen University, Khon Kaen 40002, Thailand)

  • Sudarat Thanonkeo

    (Walai Rukhavej Botanical Research Institute, Mahasarakham University, Maha Sarakham 44150, Thailand)

  • Mamoru Yamada

    (Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University, Yamaguchi 753-8515, Japan)

  • Pornthap Thanonkeo

    (Department of Biotechnology, Faculty of Technology, Khon Kaen University, Khon Kaen 40002, Thailand
    Fermantation Research Center for Value Added Agricultural Products, Khon Kaen University, Khon Kaen 40002, Thailand)

Abstract

Ethanol production at elevated temperatures requires high potential thermotolerant ethanol-producing yeast. In this study, nine isolates of thermotolerant yeasts capable of growth and ethanol production at high temperatures were successfully isolated. Among these isolates, the newly isolated thermotolerant yeast strain, which was designated as Saccharomyces cerevisiae DBKKU Y-53, exhibited great potential for ethanol production from sweet sorghum juice (SSJ) at high temperatures. The maximum ethanol concentrations produced by this newly isolated thermotolerant yeast at 37 °C and 40 °C under the optimum cultural condition were 106.82 g·L −1 and 85.01 g·L −1 , respectively, which are greater than values reported in the literatures. It should be noted from this study with SSJ at a sugar concentration of 250 g·L −1 and an initial pH of 5.5 without nitrogen supplementation can be used directly as substrate for ethanol production at high temperatures by thermotolerant yeast S. cerevisiae DBKKU Y-53. Gene expression analysis using real-time RT-PCR clearly indicated that growth and ethanol fermentation activities of the thermotolerant yeast S. cerevisiae DBKKU Y-53 at a high temperature (40 °C) were not only restricted to the expression of genes involved in the heat-shock response, but also to those genes involved in ATP production, trehalose and glycogen metabolism, and protein degradation processes were also involved.

Suggested Citation

  • Sunan Nuanpeng & Sudarat Thanonkeo & Mamoru Yamada & Pornthap Thanonkeo, 2016. "Ethanol Production from Sweet Sorghum Juice at High Temperatures Using a Newly Isolated Thermotolerant Yeast Saccharomyces cerevisiae DBKKU Y-53," Energies, MDPI, vol. 9(4), pages 1-20, March.
    • Handle: RePEc:gam:jeners:v:9:y:2016:i:4:p:253-:d:66937
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    References listed on IDEAS

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    1. Menghui Yu & Jihong Li & Sandra Chang & Ran Du & Shizhong Li & Lei Zhang & Guifang Fan & Zhipei Yan & Ting Cui & Guangtao Cong & Gang Zhao, 2014. "Optimization of Ethanol Production from NaOH-Pretreated Solid State Fermented Sweet Sorghum Bagasse," Energies, MDPI, vol. 7(7), pages 1-14, June.
    2. Zhou, Adrian & Thomson, Elspeth, 2009. "The development of biofuels in Asia," Applied Energy, Elsevier, vol. 86(Supplemen), pages 11-20, November.
    3. Pachaya Chan-u-tit & Lakkana Laopaiboon & Prasit Jaisil & Pattana Laopaiboon, 2013. "High Level Ethanol Production by Nitrogen and Osmoprotectant Supplementation under Very High Gravity Fermentation Conditions," Energies, MDPI, vol. 6(2), pages 1-16, February.
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    Cited by:

    1. Snunkhaem Echaroj & Hwai Chyuan Ong & Xiuhan Chen, 2020. "Simulation of Mixing Intensity Profile for Bioethanol Production via Two-Step Fermentation in an Unbaffled Agitator Reactor," Energies, MDPI, vol. 13(20), pages 1-11, October.
    2. Rodica Niculescu & Adrian Clenci & Victor Iorga-Siman, 2019. "Review on the Use of Diesel–Biodiesel–Alcohol Blends in Compression Ignition Engines," Energies, MDPI, vol. 12(7), pages 1-41, March.
    3. Hosam Elhalis, 2024. "Expanding the Horizons of Saccharomyces cerevisiae : Nutrition, Oenology, and Bioethanol Production," Sustainability, MDPI, vol. 16(24), pages 1-39, December.

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