Polish Journal of Microbiology (Jun 2023)

Contribution of YPRO15C Overexpression to the Resistance of Saccharomyces cerevisiae BY4742 Strain to Furfural Inhibitor

  • Abrha Getachew Tafere,
  • Li Qian,
  • Kuang Xiaolin,
  • Xiao Difan,
  • Ayepa Ellen,
  • Wu Jinjian,
  • Chen Huan,
  • Zhang Zhengyue,
  • Liu Yina,
  • Yu Xiumei,
  • Xiang Quanju,
  • Ma Menggen

DOI
https://doi.org/10.33073/pjm-2023-019
Journal volume & issue
Vol. 72, no. 2
pp. 177 – 186

Abstract

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Lignocellulosic biomass is still considered a feasible source of bioethanol production. Saccharomyces cerevisiae can adapt to detoxify lignocellulose-derived inhibitors, including furfural. Tolerance of strain performance has been measured by the extent of the lag phase for cell proliferation following the furfural inhibitor challenge. The purpose of this work was to obtain a tolerant yeast strain against furfural through overexpression of YPR015C using the in vivo homologous recombination method. The physiological observation of the overexpressing yeast strain showed that it was more resistant to furfural than its parental strain. Fluorescence microscopy revealed improved enzyme reductase activity and accumulation of oxygen reactive species due to the harmful effects of furfural inhibitor in contrast to its parental strain. Comparative transcriptomic analysis revealed 79 genes potentially involved in amino acid biosynthesis, oxidative stress, cell wall response, heat shock protein, and mitochondrial-associated protein for the YPR015C overexpressing strain associated with stress responses to furfural at the late stage of lag phase growth. Both up- and down-regulated genes involved in diversified functional categories were accountable for tolerance in yeast to survive and adapt to the furfural stress in a time course study during the lag phase growth. This study enlarges our perceptions comprehensively about the physiological and molecular mechanisms implicated in the YPR015C overexpressing strain’s tolerance under furfural stress.

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