Investigations for a Yarrowia-Based Biorefinery: In Vitro Proof-of-Concept for Manufacturing Sweetener, Cosmetic Ingredient, and Bioemulsifier

IF 3.3 3区农林科学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Fermentation-Basel Pub Date : 2023-08-28 DOI:10.3390/fermentation9090793

Edina Eszterbauer, Á. Németh

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Abstract

Yarrowia lipolytica is a widely used microorganism in biotechnology since it is capable of producing a wide range of products (lipase, citric acid, polyols). A less-studied related strain is Y. divulgata, which is also capable of erythritol production in even higher concentration than most Y. lipolytica wild strains from glycerol as renewable feedstock. Thus, the aim of this work was to investigate Y. divulgata’s complex utilisation based on erythritol fermentation from glycerol to establish a Yarrowia-based biorefinery in which both the fermentation broth and separated cells are converted into high added-value products (erythritol, bioemulsifier, cosmetic ingredient, i.e., skin moisturizer). An important parameter of erythritol fermentation is an adequate oxygen level, so both the constant oxygen level and oxygen absorption rate were investigated regarding the three target products. DO (dissolved oxygen) = 10, 20, 30, 40% was examined in the bioreactor, and a KLa range of 18–655 h−1 was investigated in both the bioreactor and in different types of shaking flasks, applying two different glycerol levels (100–150 g/L). The results showed that the Yarrowia divulagata NCAIM 1485 strain could produce one of the highest amounts of erythritol (44.14 ± 1 g/L) among wild-type yeasts from 150 g/L glycerol beside a KLa value of 655 h−1. Cell-lysates skin hydrating activity was the highest (12%) when DO = 20% (KLa 26.4 h−1) was applied. In all cases, the collected samples had an emulsification index above 69% which did not decrease below 54% after 24 h, showing good stability. Since Y. divulgata fermentations resulted in three high added-value products at the same time from a renewable raw material (glycerol), we concluded that it is suitable for complex utilisation in a microbial biorefinery, since the fermentation broth can be used for the isolation of a sweetener and bioemulsifier; meanwhile, the separated cells can be processed for cosmetic application as a skin moisturizer.

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以耶氏菌为基础的生物精炼厂的研究:制造甜味剂、化妆品成分和生物乳化剂的体外概念验证

解脂Yarrowia是生物技术中广泛使用的微生物，因为它能够生产多种产品（脂肪酶、柠檬酸、多元醇）。一种研究较少的相关菌株是泄漏乳杆菌，它也能够以比大多数溶脂乳杆菌野生菌株更高的浓度从甘油作为可再生原料生产赤藓糖醇。因此，这项工作的目的是研究Y.expeavata基于甘油赤藓糖醇发酵的复杂利用，以建立基于Yarrowia的生物精炼厂，在该生物精炼厂中，发酵液和分离的细胞都转化为高附加值产品（赤藓糖醛、生物乳化剂、化妆品成分，即皮肤保湿剂）。赤藓糖醇发酵的一个重要参数是充足的氧气水平，因此对三种目标产物的恒定氧气水平和氧气吸收率进行了研究。在生物反应器中检测DO（溶解氧）=10，20，30，40%，并在生物反应炉和不同类型的摇瓶中研究了KLa范围为18–655 h−1，使用两种不同的甘油水平（100–150 g/L）。结果表明，在野生型酵母中，除KLa值为655 h−1外，Yarrowia divulagata NCAIM 1485菌株可从150 g/L的甘油中产生最高量的赤藓糖醇（44.14±1 g/L）。当DO=20%（KLa 26.4 h−1）时，细胞裂解物的皮肤保湿活性最高（12%）。在所有情况下，收集的样品的乳化指数都在69%以上，24小时后乳化指数没有下降到54%以下，显示出良好的稳定性。由于泄漏酵母发酵同时从可再生原料（甘油）中产生三种高附加值产品，我们得出结论，它适合在微生物生物炼制中进行复杂利用，因为发酵液可用于分离甜味剂和生物乳化剂；同时，分离的细胞可以作为皮肤保湿剂进行美容应用。

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来源期刊

Fermentation-Basel BIOTECHNOLOGY & APPLIED MICROBIOLOGY-

CiteScore

3.80

自引率

18.90%

发文量

594

审稿时长

7 weeks

期刊介绍： Fermentation-Basel is an international open access journal published by MDPI, focusing on fermentation-related research, including new and emerging products, processes and technologies, such as biopharmaceuticals and biotech drugs. The journal enjoys a good reputation in the academic community and provides a high-impact forum for researchers in the field of bioengineering and applied microbiology.