Title |
에탄올 재성 효모의 선별과 그의 에탄올 내성 기작 |
Author |
지계숙 · 박소영 · 이지나 · * 이영하 · 민경희 |
Address |
숙명여자대학교 생물학과; * 충남대학교 미생물학과 |
Bibliography |
Korean Journal of Microbiology, 29(2),136-142, 1991 |
DOI |
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Key Words |
Ethanol-tolerant yeast, Saccharomyces cerevisiae, tolerant mechanism, soy flour |
Abstract |
The selection of ethanol-tolerant strains was applied to enrichment culture of YPD broth medium containing various concentrations of ethanol. Isolates were identified to be Saccharomyces cerevisiae, the others as S. dairensis, S. exiguus, S. telluris, Saccharomycodes ludwigii, Schwanniomyces occidentalis var. occidentalis and Zygosaccharomyces florentinus. Among isolates S. cerevisiae YO-1 was screened as having the highest ethanol tolerance and produced 18% (v/v) ethanol after 4 days fermentation. The change of fatty-acyl residues represents that a progressive decrease in fatty-acyl unsaturation and a proportional increase in saturation in phospholipids of yeast cells during fermentation affected the yeast viability. Supplementation ethanol to the cultures led to an increase of unsaturated fatty-acyl residues, especially C_16 or C_18 residues, along with a decrease in the proportion of saturated residues in cellular phospholipids. Increasing the amount of soy flour led to an increase in the maximum number of viable yeast cells and ethanol production. It was possible in 4 days to reach 21% (v/v) ethanol by adding 4% soy flour as source of unsaturated fatty-acyl residues to the fermentation medium. Soy flour not only increased yeast population but also enhanced the physiological properties of yeast cells to be ethanol tolerant in the anaerobic culture. |
Download PDF |
Kor_290211_136-142p.pdf |