巴塔哥尼亚寒冷环境中多耐寒酵母菌的生理特征。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Rubí A Duo Saito, Martín Moliné, Virginia de Garcia
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引用次数: 0

摘要

来自寒冷环境的酵母菌有多种策略来防止极端条件的负面影响,包括生产具有生物技术价值的代谢物。我们研究了从寒冷环境中分离出来的酵母菌的生长情况和代谢物的生产情况。我们测试了 38 个菌株在不同温度(5-30 °C)和溶质浓度(3-12.5% NaCl 和 50%葡萄糖)下的生长能力。所有受测菌株都能在 5 ℃ 下生长,77% 的菌株能在 18 ℃ 下用 5%的 NaCl 生长。我们能够根据不同的理化/生活方式对菌株进行分组,如多极端耐受性、渗透耐受性、心理耐受性或心理亲水性。选取了五株菌株来研究生物量和代谢物(甘油、曲哈糖、麦角甾醇和霉菌素)的产生。这些分析表明,三卤糖和麦角甾醇的积累模式与每种生活方式有关。此外,我们的研究结果还表明,霉菌素不具有渗透溶质的作用。非常规发酵酵母,如塔斯马尼亚酵母(Phaffia tasmanica)和欧巴桑酵母(Saccharomyces eubayanus),可能对曲卤糖的生产有兴趣。这项研究有助于了解寒冷环境中具有生物技术应用价值的非常规酵母菌,包括它们在不同条件下的生长概况、代谢产物和生物量生产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological characterization of polyextremotolerant yeasts from cold environments of Patagonia.

Yeasts from cold environments have a wide range of strategies to prevent the negative effects of extreme conditions, including the production of metabolites of biotechnological interest. We investigated the growth profile and production of metabolites in yeast species isolated from cold environments. Thirty-eight strains were tested for their ability to grow at different temperatures (5-30 °C) and solute concentrations (3-12.5% NaCl and 50% glucose). All strains tested were able to grow at 5 °C, and 77% were able to grow with 5% NaCl at 18 °C. We were able to group strains based on different physicochemical/lifestyle profiles such as polyextremotolerant, osmotolerant, psychrotolerant, or psychrophilic. Five strains were selected to study biomass and metabolite production (glycerol, trehalose, ergosterol, and mycosporines). These analyses revealed that the accumulation pattern of trehalose and ergosterol was related to each lifestyle profile. Also, our findings would suggest that mycosporines does not have a role as an osmolyte. Non-conventional fermentative yeasts such as Phaffia tasmanica and Saccharomyces eubayanus may be of interest for trehalose production. This work contributes to the knowledge of non-conventional yeasts with biotechnological application from cold environments, including their growth profile, metabolites, and biomass production under different conditions.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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