Multiscale spectroscopic analysis of lipids in dimorphic and oleaginous Mucor circinelloides accommodate sustainable targeted lipid production.

Q1 Agricultural and Biological Sciences
V Shapaval, A Deniset-Besseau, D Dubava, S Dzurendova, J Heitmann Solheim, A Kohler
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引用次数: 1

Abstract

Background: Oleaginous fungi have versatile metabolism and able to transform a wide range of substrates into lipids, accounting up to 20-70% of their total cell mass. Therefore, oleaginous fungi are considered as an alternative source of lipids. Oleaginous fungi can accumulate mainly acyl glycerides and free fatty acids which are localized in lipid droplets. Some of the oleaginous fungi possessing promising lipid productivity are dimorphic and can exhibit three cell forms, flat hyphae, swollen hyphae and yeast-like cells. To develop sustainable targeted fungal lipid production, deep understanding of lipogenesis and lipid droplet chemistry in these cell forms is needed at multiscale level. In this study, we explored the potential of infrared spectroscopy techniques for examining lipid droplet formation and accumulation in different cell forms of the dimorphic and oleaginous fungus Mucor circinelloides.

Results: Both transmission- and reflectance-based spectroscopy techniques are shown to be well suited for studying bulk fungal biomass. Exploring single cells with infrared microspectroscopy reveals differences in chemical profiles and, consequently, lipogenesis process, for different cell forms. Yeast-like cells of M. circinelloides exhibited the highest absorbance intensities for lipid-associated peaks in comparison to hyphae-like cell forms. Lipid-to-protein ratio, which is commonly used in IR spectroscopy to estimate lipid yield was the lowest in flat hyphae. Swollen hyphae are mainly composed of lipids and characterized by more uniform distribution of lipid-to-protein concentration. Yeast-like cells seem to be comprised mostly of lipids having the largest lipid-to-protein ratio among all studied cell forms. With infrared nanospectroscopy, variations in the ratios between lipid fractions triglycerides and free fatty acids and clear evidence of heterogeneity within and between lipid droplets are illustrated for the first time.

Conclusions: Vibrational spectroscopy techniques can provide comprehensive information on lipogenesis in dimorphic and oleaginous fungi at the levels of the bulk of cells, single cells and single lipid droplets. Unicellular spectra showed that various cell forms of M. circinelloides differs in the total lipid content and profile of the accumulated lipids, where yeast-like cells are the fatty ones and, therefore, could be considered as preferable cell form for producing lipid-rich biomass. Spectra of single lipid droplets showed an indication of possible droplet-to-droplet and within-droplet heterogeneity.

多尺度光谱分析的脂质在二态和产油毛霉圆形适应可持续的目标脂质生产。
背景:产油真菌具有多种代谢功能,能够将多种底物转化为脂质,占其总细胞质量的20-70%。因此,产油真菌被认为是脂质的另一种来源。产油真菌主要积聚在脂滴中的酰基甘油酯和游离脂肪酸。一些产油真菌具有很好的产脂能力,是二态的,可以表现出三种细胞形式:扁平菌丝、肿胀菌丝和酵母样细胞。为了开发可持续的靶向真菌脂质生产,需要在多尺度水平上深入了解这些细胞形式的脂肪形成和脂滴化学。在这项研究中,我们探索了红外光谱技术在二态和产油真菌环毛霉不同细胞形态中脂滴形成和积累的潜力。结果:基于透射和反射率的光谱技术都非常适合于研究真菌生物量。用红外微光谱学探索单细胞揭示了不同细胞形态的化学特征和脂肪生成过程的差异。酵母样细胞比菌丝样细胞对脂质相关峰的吸收强度最高。通常用于红外光谱估计脂质产率的脂蛋白比在扁平菌丝中最低。肿胀菌丝主要由脂质组成,其特征是脂质-蛋白浓度分布更均匀。酵母样细胞似乎主要由脂质组成,在所有研究的细胞形式中,脂质与蛋白质的比例最大。利用红外纳米光谱,脂质组分甘油三酯和游离脂肪酸之间的比例变化以及脂滴内部和之间的异质性的明确证据首次得到说明。结论:振动光谱技术可以在细胞体、单个细胞和单个脂滴水平上提供二态真菌和产油真菌脂肪生成的全面信息。单细胞光谱显示,不同细胞形式的圆叶霉在总脂含量和积累的脂质谱上存在差异,其中酵母样细胞是脂肪细胞,因此可以认为是产生富含脂质的生物质的首选细胞形式。单个脂滴的光谱显示了可能的液滴间和液滴内的异质性。
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来源期刊
Fungal Biology and Biotechnology
Fungal Biology and Biotechnology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
10.20
自引率
0.00%
发文量
17
审稿时长
9 weeks
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