超声辅助在多相发酵体系中进行槐糖脂的原位分离，以实现假丝酵母的高效生产。

Ultrasound assisted in situ separation of sophorolipids in multi-phase fermentation system to achieve efficient production by Candida bombicola.

机构信息

State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology, Shanghai, People's Republic of China.

出版信息

Biotechnol J. 2022 Feb;17(2):e2100478. doi: 10.1002/biot.202100478. Epub 2021 Dec 10.

DOI:10.1002/biot.202100478

PMID:34792852

Abstract

BACKGROUND

Sophorolipids (SLs) are regarded as one of the most promising biosurfactants. However, high production costs are the main obstacle to extended SLs application. Semi-continuous fermentation, which is based on in situ separation, is a promising technology for achieving high SLs productivity.

METHODS AND RESULTS

In this study, the sedimentation mechanism of SLs was analyzed. The formation of a hydrophobic mixture of SLs and rapeseed oil was a key factor in sedimentation. And the hydrophobicity and density of the mixture determined SLs sedimentation rate. On this basis, ultrasonic enhanced sedimentation technology (UEST) was introduced, by which the sedimentation rates were increased by 46.9%-485.4% with different ratio of rapeseed oil to SLs. UEST-assisted real-time in situ separation and semi-continuous fermentation were performed. SLs productivity and yield were 2.15 g L h and 0.58 g g , respectively, simultaneously the loss ratio of cells, glucose, and rapeseed oil were significantly reduced.

CONCLUSIONS

This study provides a new horizon for optimization of the SLs fermentation process.

摘要

背景

槐糖脂（SLs）被认为是最有前途的生物表面活性剂之一。然而，高生产成本是限制 SLs 广泛应用的主要障碍。基于原位分离的半连续发酵是实现高 SLs 生产力的一项有前途的技术。

方法和结果

本研究分析了 SLs 的沉淀机制。SLs 与菜籽油形成疏水混合物是沉淀的关键因素。混合物的疏水性和密度决定了 SLs 的沉淀速率。在此基础上，引入了超声强化沉淀技术（UEST），不同比例的菜籽油与 SLs 的沉淀速率分别提高了 46.9%-485.4%。进行了 UEST 辅助实时原位分离和半连续发酵。SLs 的生产力和得率分别为 2.15 g·L h 和 0.58 g·g ，同时细胞、葡萄糖和菜籽油的损失率显著降低。

结论

本研究为优化 SLs 发酵工艺提供了新的思路。

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超声辅助在多相发酵体系中进行槐糖脂的原位分离，以实现假丝酵母的高效生产。

Ultrasound assisted in situ separation of sophorolipids in multi-phase fermentation system to achieve efficient production by Candida bombicola.

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法和结果

结论

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