Transcriptomics analysis and fed-batch regulation of high astaxanthin-producing Phaffia rhodozyma/Xanthophyllomyces dendrorhous obtained through adaptive laboratory evolution.

IF 3.2 4区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of Industrial Microbiology & Biotechnology Pub Date : 2023-02-17 DOI:10.1093/jimb/kuad015

Liang Yang, Hao-Yi Yang, Li You, Hui Ni, Ze-Dong Jiang, Xi-Ping Du, Yan-Bing Zhu, Ming-Jing Zheng, Li-Jun Li, Rui Lin, Zhi-Peng Li, Qing-Biao Li

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引用次数: 0

Abstract

Astaxanthin has high utilization value in functional food because of its strong antioxidant capacity. However, the astaxanthin content of Phaffia rhodozyma is relatively low. Adaptive laboratory evolution is an excellent method to obtain high-yield strains. TiO2 is a good inducer of oxidative stress. In this study, different concentrations of TiO2 were used to domesticate P. rhodozyma, and at a concentration of 1000 mg/L of TiO2 for 105 days, the optimal strain JMU-ALE105 for astaxanthin production was obtained. After fermentation, the astaxanthin content reached 6.50 mg/g, which was 41.61% higher than that of the original strain. The ALE105 strain was fermented by batch and fed-batch, and the astaxanthin content reached 6.81 mg/g. Transcriptomics analysis showed that the astaxanthin synthesis pathway, and fatty acid, pyruvate, and nitrogen metabolism pathway of the ALE105 strain were significantly upregulated. Based on the nitrogen metabolism pathway, the nitrogen source was adjusted by ammonium sulphate fed-batch fermentation, which increased the astaxanthin content, reaching 8.36 mg/g. This study provides a technical basis and theoretical research for promoting industrialization of astaxanthin production of P. rhodozyma.

One-sentence summary: A high-yield astaxanthin strain (ALE105) was obtained through TiO2 domestication, and its metabolic mechanism was analysed by transcriptomics, which combined with nitrogen source regulation to further improve astaxanthin yield.

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通过适应性实验室进化获得的高虾青素产量的Phaffia rhodozyma/黄腐真菌dendrohus的转录组学分析和补料分批调节。

虾青素具有较强的抗氧化能力，在功能性食品中具有较高的利用价值。然而，法菲酵母的虾青素含量相对较低。适应性实验室进化是获得高产菌株的一种很好的方法。TiO2是氧化应激的良好诱导剂。本研究采用不同浓度的TiO2驯化红酵母，在1000mg/L的TiO2浓度下驯化105天，获得了生产虾青素的最佳菌株JMU-ALE105。发酵后，虾青素含量达到6.50mg/g，比原菌株高41.61%。ALE105菌株通过分批和补料分批发酵，虾青素含量达到6.81mg/g。转录组学分析表明，ALE105菌株的虾青素合成途径以及脂肪酸、丙酮酸和氮代谢途径显著上调。基于氮代谢途径，采用硫酸铵补料分批发酵调节氮源，使虾青素含量提高到8.36mg/g。本研究为促进红酵母虾青素生产的产业化提供了技术基础和理论研究。一句话总结：通过TiO2驯化获得高产虾青素菌株（ALE105），并通过转录组学分析其代谢机制，结合氮源调控，进一步提高虾青素产量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Industrial Microbiology & Biotechnology 工程技术-生物工程与应用微生物

CiteScore

7.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The Journal of Industrial Microbiology and Biotechnology is an international journal which publishes papers describing original research, short communications, and critical reviews in the fields of biotechnology, fermentation and cell culture, biocatalysis, environmental microbiology, natural products discovery and biosynthesis, marine natural products, metabolic engineering, genomics, bioinformatics, food microbiology, and other areas of applied microbiology