Potential role of alginate in marine bacteria-yeast interactions.

IF 3.9 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Shota Nakata, Ryuichi Takase, Shigeyuki Kawai, Kohei Ogura, Wataru Hashimoto
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引用次数: 0

Abstract

The ability of microorganisms to decompose brown algae has attracted attention. This study aims to clarify the characteristics of marine microbial communities in which prokaryotic and eukaryotic microorganisms interact via the metabolism of brown algae carbohydrates. Amplicon-based microbiome analysis revealed the predominance of the genera Marinomonas and Vibrio in seawater and seaweed samples mixed with alginate and mannitol, which are the primary carbohydrates in brown algae. Three Vibrio species and Candida intermedia were isolated via alginate enrichment culture. Although C. intermedia did not utilize alginate as a nutrient source, the yeast grew in the spent alginate medium in which Vibrio algivorus had been cultured. Coculture with C. intermedia and the Vibrio isolates, especially V. algivorus, also enhanced the growth of the yeast on alginate. These results suggested that C. intermedia grew because of the supply of nutrients via alginate metabolism by Vibrio species. In the coculture medium, the amount of phosphatidylserine increased in the early phase but decreased with the growth of C. intermedia, indicating that phosphatidylserine secreted by Vibrio is involved in the putative mutualistic interaction. We examined whether such interaction is applicable to the production of useful substances and succeeded in lipid production by oleaginous marine yeast Yarrowia lipolytica through coculture with V. algivorus. Our study suggested the potential of mutualistic interaction via degradation of alginate by marine Vibrio for production of industrially useful substances in yeast cells.IMPORTANCEIn this study, we analyzed the microbiome of seawater and seaweed in the presence of brown algae carbohydrates and reconstructed the putative mutualistic relationship of marine Vibrio and Candida intermedia mediated by metabolism of brown algae in the ocean.

藻酸盐在海洋细菌-酵母相互作用中的潜在作用。
微生物分解褐藻的能力备受关注。本研究旨在阐明海洋微生物群落的特征,其中原核微生物和真核微生物通过褐藻碳水化合物的新陈代谢相互作用。基于扩增子的微生物组分析表明,在混合了海藻酸盐和甘露醇(褐藻的主要碳水化合物)的海水和海藻样本中,马林单胞菌属和弧菌属占主导地位。通过海藻酸盐富集培养,分离出三种弧菌和中间念珠菌。虽然中间念珠菌不利用藻酸盐作为营养源,但这种酵母菌在培养过海藻弧菌的废藻酸盐培养基中生长。中间酵母菌与弧菌分离物(尤其是海藻弧菌)的共培养也促进了酵母菌在藻酸盐上的生长。这些结果表明,中间酵母菌的生长得益于弧菌通过海藻酸盐代谢提供的营养。在共培养培养基中,磷脂酰丝氨酸的量在早期阶段增加,但随着中间酵母的生长而减少,这表明弧菌分泌的磷脂酰丝氨酸参与了推定的互利相互作用。我们研究了这种相互作用是否适用于有用物质的生产,并通过与海藻弧菌的共培养,成功地利用含油海洋酵母 Yarrowia lipolytica 生产了脂质。本研究分析了存在褐藻碳水化合物的海水和海藻微生物组,重建了海洋弧菌和中间念珠菌在海洋褐藻代谢介导下的假定互作关系。
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来源期刊
Applied and Environmental Microbiology
Applied and Environmental Microbiology 生物-生物工程与应用微生物
CiteScore
7.70
自引率
2.30%
发文量
730
审稿时长
1.9 months
期刊介绍: Applied and Environmental Microbiology (AEM) publishes papers that make significant contributions to (a) applied microbiology, including biotechnology, protein engineering, bioremediation, and food microbiology, (b) microbial ecology, including environmental, organismic, and genomic microbiology, and (c) interdisciplinary microbiology, including invertebrate microbiology, plant microbiology, aquatic microbiology, and geomicrobiology.
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