Study of Different Parameters Affecting Production and Productivity of Polyunsaturated Fatty Acids (PUFAs) and γ-Linolenic Acid (GLA) by Cunninghamella elegans Through Glycerol Conversion in Shake Flasks and Bioreactors.

IF 4.1 2区生物学 Q2 MICROBIOLOGY Microorganisms Pub Date : 2024-10-20 DOI:10.3390/microorganisms12102097

Gabriel Vasilakis, Christina Roidouli, Dimitris Karayannis, Nikos Giannakis, Emmanuel Rondags, Isabelle Chevalot, Seraphim Papanikolaou

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Abstract

Microbial cultures repurposing organic industrial residues for value-added metabolite production is pivotal for sustainable resource use. Highlighting polyunsaturated fatty acids (PUFAs), particularly gamma-linolenic acid (GLA), renowned for their nutritional and therapeutic value. Notably, Zygomycetes' filamentous fungi harbor abundant GLA-rich lipid content, furthering their relevance in this approach. In this study, the strain C. elegans NRRL Y-1392 was evaluated for its capability to metabolize glycerol and produce lipids rich in GLA under different culture conditions. Various carbon-to-nitrogen ratios (C/N = 11.0, 110.0, and 220.0 mol/mol) were tested in batch-flask cultivations. The highest GLA production of 224.0 mg/L (productivity equal to 2.0 mg/L/h) was observed under nitrogen excess conditions, while low nitrogen content promoted lipid accumulation (0.59 g of lipids per g of dry biomass) without yielding more PUFAs and GLA. After improving the C/N ratio at 18.3 mol/mol, even higher PUFA (600 mg/L) and GLA (243 mg/L) production values were recorded. GLA content increased when the fungus was cultivated at 12 °C (15.5% w/w compared to 12.8% w/w at 28 °C), but productivity values decreased significantly due to prolonged cultivation duration. An attempt to improve productivity by increasing the initial spore population did not yield the expected results. The successful scale-up of fungal cultivations is evidenced by achieving consistent results (compared to flask experiments under corresponding conditions) in both laboratory-scale (Working Volume-Vw = 1.8 L; C/N = 18.3 mol/mol) and semi-pilot-scale (Vw = 15.0 L; C/N = 110.0 mol/mol) bioreactor experiments. To the best of our knowledge, cultivation of the fungus Cunninghamella elegans in glycerol-based substrates, especially in 20 L bioreactor experiments, has never been previously reported in the international literature. The successful scale-up of the process in a semi-pilot-scale bioreactor illustrates the potential for industrializing the bioprocess.

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通过摇瓶和生物反应器中的甘油转化，研究影响秀丽隐杆线虫生产多不饱和脂肪酸（PUFAs）和γ-亚麻酸（GLA）及产量的不同参数。

将有机工业残留物重新用于生产增值代谢物的微生物培养对资源的可持续利用至关重要。多不饱和脂肪酸（PUFA），尤其是γ-亚麻酸（GLA），以其营养和治疗价值而闻名。值得注意的是，接合真菌的丝状真菌中含有丰富的 GLA 脂质，这进一步增强了它们在这一方法中的相关性。在本研究中，我们评估了秀丽隐杆线虫 NRRL Y-1392 菌株在不同培养条件下代谢甘油并产生富含 GLA 的脂质的能力。在分批烧瓶培养中测试了不同的碳氮比（C/N = 11.0、110.0 和 220.0 mol/mol）。在氮过剩条件下观察到的最高 GLA 产量为 224.0 mg/L（生产率等于 2.0 mg/L/h），而低含氮量促进了脂质积累（每克干生物量产生 0.59 克脂质），但没有产生更多的 PUFA 和 GLA。当 C/N 比提高到 18.3 mol/mol 时，PUFA（600 mg/L）和 GLA（243 mg/L）的产量甚至更高。在 12 °C 下培养真菌时，GLA 含量增加（15.5% w/w 与 28 °C 下的 12.8% w/w 相比），但由于培养时间延长，生产率显著下降。试图通过增加初始孢子数量来提高生产率的尝试并未取得预期效果。在实验室规模（工作容积-Vw = 1.8 L；C/N = 18.3 mol/mol）和半中试规模（Vw = 15.0 L；C/N = 110.0 mol/mol）的生物反应器实验中取得了一致的结果（与相应条件下的烧瓶实验相比），证明了真菌培养的成功放大。据我们所知，在以甘油为基质的实验中，尤其是在 20 升生物反应器实验中培养秀丽隐杆线虫真菌，在国际文献中从未有过报道。在一个半试验规模的生物反应器中成功地扩大了该工艺的规模，这说明该生物工艺具有工业化的潜力。

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来源期刊

Microorganisms Medicine-Microbiology (medical)

CiteScore

7.40

自引率

6.70%

发文量

2168

审稿时长

20.03 days

期刊介绍： Microorganisms (ISSN 2076-2607) is an international, peer-reviewed open access journal which provides an advanced forum for studies related to prokaryotic and eukaryotic microorganisms, viruses and prions. It publishes reviews, research papers and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files and software regarding the full details of the calculation or experimental procedure, if unable to be published in a normal way, can be deposited as supplementary electronic material.