Adaptive responses of Kluyveromyces marxianus CCT 7735 to 2-phenylethanol stress: Alterations in membrane fatty-acid composition, ergosterol content, exopolysaccharide production and reduction in reactive oxygen species

[Display omitted] •2-PE stress impairs K. marxianus growth, cell viability, and membrane permeability.•The plasma membrane is an important target of 2-PE in yeast.•Ergosterol and fatty-acids contents are important adaptive responses to 2-PE stress.•Exopolysaccharide and ROS levels reduction helped K...

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Bibliographic Details
Published in:Fungal genetics and biology 2021-06, Vol.151, p.103561, Article 103561
Main Authors: Balbino, Thércia Rocha, da Silveira, Fernando Augusto, Ventorim, Rafaela Zandonade, do Nascimento, Antônio Galvão, de Oliveira, Leandro Licursi, da Silveira, Wendel Batista
Format: Article
Language:English
Subjects:
Aromatic alcohol
Exopolymer
Morphology
Plasma membrane
Yeast
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Summary:[Display omitted] •2-PE stress impairs K. marxianus growth, cell viability, and membrane permeability.•The plasma membrane is an important target of 2-PE in yeast.•Ergosterol and fatty-acids contents are important adaptive responses to 2-PE stress.•Exopolysaccharide and ROS levels reduction helped K. marxianus resist to 2-PE stress. 2-phenylethanol (2-PE) is a higher aromatic alcohol with a rose-like aroma used in the cosmetic and food industries as a flavoring and displays potential for application as an antifungal. Biotechnological production of 2-PE from yeast is an interesting alternative due to the non-use of toxic compounds and the generation of few by-products. Kluyveromyces marxianus CCT 7735 is a thermotolerant strain capable of producing high 2-PE titers from L-Phenylalanine; however, like other yeast species, its growth has been strongly inhibited by this alcohol. Herein, we aimed to evaluate the effect of 2-PE on cell growth, cell viability, membrane permeability, glucose uptake, metabolism, and morphology in K. marxianus CCT 7735, as well as its adaptive responses. The stress condition was imposed after 4 h of cultivation by adding 3.0 g.L−1 of 2-PE in exponential growing cells. 2-PE stress impaired yeast growth, glucose uptake, fermentative metabolism, membrane permeability, and cell viability. Moreover, the stress condition provoked changes in both morphology and surface roughness. The reactive oxygen species (ROS) increased immediately on exposure to 2-PE. Changes in membrane fatty-acid composition, ergosterol content, exopolysaccharides production, and reduction of the ROS levels appear to be the result of adaptive responses in K. marxianus. Our results provided insights into a better understanding of the effects of 2-PE on K. marxianus and its adaptive responses.
ISSN:1087-1845
1096-0937
DOI:10.1016/j.fgb.2021.103561