Total fatty acid content of the plasma membrane of Saccharomyces cerevisiae is more responsible for ethanol tolerance than the degree of unsaturation

Kim Hyun-Soo; Kim Na-Rae; Choi Wonja

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Total fatty acid content of the plasma membrane of Saccharomyces cerevisiae is more responsible for ethanol tolerance than the degree of unsaturation

机译：酿酒酵母质膜中的总脂肪酸含量比不饱和度对乙醇耐受性更重要

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The effect of change in unsaturated fatty acid composition on ethanol tolerance in Saccharomyces cerevisiae overexpressing ScOLE1 ( Delta 9 fatty acid desaturase gene of S. cerevisiae), CaFAD2 ( Delta 12 fatty acid desaturase gene of Candida albicans), or CaFAD3 ( omega 3 fatty acid desaturase gene of C. albicans) was examined. ScOLE1 over-expression increased the total unsaturated fatty acid content and enhanced ethanol tolerance, compared with a control strain. In contrast, overexpression of CaFAD2 and CaFAD3, which led to production of linoleic acid (18:2) and alpha -linolenic acid (18:3), respectively, neither changed total unsaturated fatty acids nor enhanced ethanol tolerance. The total unsaturated fatty acid content rather than the degree of unsaturation is thus an important factor for ethanol tolerance.

机译：过表达Saccharomyces cerevisiae的酿酒酵母ScOLE1（酿酒酵母的Delta 9脂肪酸去饱和酶基因），CaFAD2（白色念珠菌的Delta 12脂肪酸去饱和酶基因）或CaFAD3（ω3脂肪酸）中不饱和脂肪酸组成的变化对乙醇耐受性的影响检查了白色念珠菌的去饱和酶基因）。与对照菌株相比，ScOLE1过表达增加了总不饱和脂肪酸含量并增强了乙醇耐受性。相反，CaFAD2和CaFAD3的过表达分别导致亚油酸（18：2）和α-亚麻酸（18：3）的产生，既不改变总不饱和脂肪酸，也不增强乙醇耐受性。因此，总不饱和脂肪酸含量而不是不饱和度是乙醇耐受性的重要因素。

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《Biotechnology Letters》 |2011年第3期|共7页
作者
Kim Hyun-Soo; Kim Na-Rae; Choi Wonja;
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正文语种 eng
中图分类分子生物学;
关键词
Bioethanol; Ethanol tolerance; Unsaturated fatty acid;

机译：生物乙醇;乙醇耐受性;不饱和脂肪酸;

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1. Total fatty acid content of the plasma membrane of Saccharomyces cerevisiae is more responsible for ethanol tolerance than the degree of unsaturation [J] . Kim Hyun-Soo, Kim Na-Rae, Choi Wonja Biotechnology Letters . 2011,第3期

机译：酿酒酵母质膜中的总脂肪酸含量比不饱和度对乙醇耐受性更重要
2. Relationship between cadmium sensitivity and degree of plasma membrane fatty acid unsaturation in Saccharomyces cerevisiae [J] . Howlett NG, Avery SV Applied Microbiology and Biotechnology . 1997,第4期

机译：酿酒酵母中镉敏感性与质膜脂肪酸不饱和度的关系
3. Improved ethanol tolerance of Saccharomyces cerevisiae strains by increases in fatty acid unsaturation via metabolic engineering [J] . Kajiwara S., Sone H., Nakamura K., Biotechnology Letters . 2000,第23期

机译：通过代谢工程增加脂肪酸不饱和度来提高酿酒酵母菌株的乙醇耐受性
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机译：细胞生长模型在蛋白质生物反应器中用于连续乙醇发酵的酿酒酵母酿酒录：380575
5. Fatty acid metabolism in Saccharomyces cerevisiae and effects of fatty acid metabolites on neutrophil function [D] . Batugedara, Hashini Maneesha. 2014

机译：酿酒酵母中的脂肪酸代谢和脂肪酸代谢产物对中性粒细胞功能的影响
6. Induction of lipid peroxidation during heavy metal stress in Saccharomyces cerevisiae and influence of plasma membrane fatty acid unsaturation. [O] . N G Howlett, S V Avery 1997

机译：酿酒酵母中重金属胁迫过程中脂质过氧化的诱导和质膜脂肪酸不饱和度的影响。
7. Induction of lipid peroxidation during heavy metal stress in Saccharomyces cerevisiae and influence of plasma membrane fatty acid unsaturation [O] . N G Howlett, S V Avery 1997

机译：酿酒酵母中重金属应力期间脂质过氧化的诱导及血浆膜脂肪酸不饱和度的影响

Total fatty acid content of the plasma membrane of Saccharomyces cerevisiae is more responsible for ethanol tolerance than the degree of unsaturation

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