Metabolic engineering and optimization of Escherichia coli co-culture for the de novo synthesis of genkwanin.

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/kuad030
Nguyen Huy Thuan, Vinay Bharadwaj Tatipamula, Nguyen Thanh Trung, Nguyen Van Giang
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Abstract

Genkwanin has various significant roles in nutrition, biomedicine, and pharmaceutical biology. Previously, this compound was chiefly produced by plant-originated extraction or chemical synthesis. However, due to increasing concern and demand for safe food and environmental issues, the biotechnological production of genkwanin and other bioactive compounds based on safe, cheap, and renewable substrates has gained much interest. This paper described recombinant Escherichia coli-based co-culture engineering that was reconstructed for the de novo production of genkwanin from d-glucose. The artificial genkwanin biosynthetic chain was divided into 2 modules in which the upstream strain contained the genes for synthesizing p-coumaric acid from d-glucose, and the downstream module contained a gene cluster that produced the precursor apigenin and the final product, genkwanin. The Box-Behnken design, a response surface methodology, was used to empirically model the production of genkwanin and optimize its productivity. As a result, the application of the designed co-culture improved the genkwanin production by 48.8 ± 1.3 mg/L or 1.7-fold compared to the monoculture. In addition, the scale-up of genkwanin bioproduction by a bioreactor resulted in 68.5 ± 1.9 mg/L at a 48 hr time point. The combination of metabolic engineering and fermentation technology was therefore a very efficient and applicable approach to enhance the production of other bioactive compounds.

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代谢工程和大肠杆菌共培养物的优化用于新合成耿花素。
金花素在营养学、生物医学和药物生物学中具有各种重要作用。以前,这种化合物主要通过植物提取或化学合成产生。然而,由于人们对安全食品和环境问题的日益关注和需求,以安全、廉价和可再生的基质为基础的生物技术生产耿花素和其他生物活性化合物引起了人们的极大兴趣。本文描述了基于重组大肠杆菌的共培养工程,该工程被重建用于从D-葡萄糖从头生产耿花素。将人工耿素生物合成链分为两个模块,其中上游菌株包含从D-葡萄糖合成对香豆酸的基因。并且,下游模块包含一个基因簇,该基因簇产生前体芹菜素和最终产物耿花素。Box-Behnken设计是一种响应面方法,用于对耿花宁的生产进行实证建模并优化其生产力。结果,与单一培养物相比,应用所设计的共培养物可使耿素产量提高48.8±1.3 mg/L,是单一培养物的1.7倍。此外,生物反应器生物生产的放大在48小时内产生68.5±1.9 mg/L。因此,代谢工程和发酵技术的结合是提高其他生物活性化合物产量的一种非常有效和适用的方法。
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来源期刊
Journal of Industrial Microbiology & Biotechnology
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
25
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
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