Semi-continuous biomanufacturing for maximizing the production of complex chemicals and fuels: a case study of amorpha-4,11-diene.

IF 14.3 1区工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Trends in biotechnology Pub Date : 2024-09-13 DOI:10.1016/j.tibtech.2024.08.010

Carlos Castillo-Saldarriaga, Stephen Sarria, Christine N S Santos, Parayil K Ajikumar, Ralf Takors

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Abstract

Biomanufacturing is emerging as a key technology for the sustainable production of chemicals, materials, and food ingredients using engineered microbes. However, despite billions of dollars of investment, few processes have been successfully commercialized due to a lack of attention on industrial-scale bioprocess design and innovation. In this study, we address this challenge through the development of a novel semi-continuous bioprocess for the production of the terpene amorpha-4,11-diene (AMD4,11) using engineered Escherichia coli. Using a hydrophilic membrane for product and biomass retention, we successfully decoupled production at low growth rates (~0.01 1/h) and improved reactor productivity up to 166 mg/l_Reactor h, threefold compared with traditional fed-batch fermentations. When cell recycling was implemented, we showed sustained production at the highest conversion yield and production rate for up to three cycles, demonstrating the robustness of both the strain and the process and highlighting the potential for new bioprocess strategies to improve the economic viability of industrial biomanufacturing.

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最大限度地生产复杂化学品和燃料的半连续生物制造技术：α-4,11-二烯案例研究。

生物制造正在成为利用工程微生物可持续生产化学品、材料和食品配料的关键技术。然而，尽管投资数十亿美元，但由于缺乏对工业规模生物工艺设计和创新的关注，成功实现商业化的工艺寥寥无几。在本研究中，我们利用工程大肠杆菌开发了一种新型半连续生物工艺，用于生产萜烯 amorpha-4,11-二烯（AMD4,11），从而解决了这一难题。我们使用亲水膜来保留产品和生物质，成功地在低生长率（约 0.01 1/h）下实现了生产解耦，并将反应器的生产率提高到 166 mg/l，是传统间歇式发酵的三倍。在实施细胞循环时，我们发现最高转化率和生产率可持续生产长达三个周期，这证明了菌株和工艺的稳健性，并凸显了新生物工艺策略在提高工业生物制造的经济可行性方面的潜力。

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

Trends in biotechnology 工程技术-生物工程与应用微生物

CiteScore

28.60

自引率

1.20%

发文量

198

审稿时长

1 months

期刊介绍： Trends in Biotechnology publishes reviews and perspectives on the applied biological sciences, focusing on useful science applied to, derived from, or inspired by living systems. The major themes that TIBTECH is interested in include: Bioprocessing (biochemical engineering, applied enzymology, industrial biotechnology, biofuels, metabolic engineering) Omics (genome editing, single-cell technologies, bioinformatics, synthetic biology) Materials and devices (bionanotechnology, biomaterials, diagnostics/imaging/detection, soft robotics, biosensors/bioelectronics) Therapeutics (biofabrication, stem cells, tissue engineering and regenerative medicine, antibodies and other protein drugs, drug delivery) Agroenvironment (environmental engineering, bioremediation, genetically modified crops, sustainable development).