Transcriptional and translational flux optimization at the key regulatory node for enhanced production of naringenin using acetate in engineered Escherichia coli.

IF 3.2 4区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Industrial Microbiology & Biotechnology Pub Date : 2024-01-09 DOI:10.1093/jimb/kuae006
Dong H Kim, Hyun G Hwang, Dae-Yeol Ye, Gyoo Y Jung
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Abstract

As a key molecular scaffold for various flavonoids, naringenin is a value-added chemical with broad pharmaceutical applicability. For efficient production of naringenin from acetate, it is crucial to precisely regulate the carbon flux of the oxaloacetate-phosphoenolpyruvate (OAA-PEP) regulatory node through appropriate pckA expression control, as excessive overexpression of pckA can cause extensive loss of OAA and metabolic imbalance. However, considering the critical impact of pckA on naringenin biosynthesis, the conventional strategy of transcriptional regulation of gene expression is limited in its ability to cover the large and balanced solution space. To overcome this hurdle, in this study, pckA expression was fine-tuned at both the transcriptional and translational levels in a combinatorial expression library for the precise exploration of optimal naringenin production from acetate. Additionally, we identified the effects of regulating pckA expression by validating the correlation between phosphoenolpyruvate kinase (PCK) activity and naringenin production. As a result, the flux-optimized strain exhibited a 49.8-fold increase compared with the unoptimized strain, producing 122.12 mg/L of naringenin. Collectively, this study demonstrated the significance of transcriptional and translational flux rebalancing at the key regulatory node, proposing a pivotal metabolic engineering strategy for the biosynthesis of various flavonoids derived from naringenin using acetate.

One-sentence summary: In this study, transcriptional and translational regulation of pckA expression at the crucial regulatory node was conducted to optimize naringenin biosynthesis using acetate in E. coli.

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在关键调控节点优化转录和翻译通量,以提高工程大肠杆菌利用醋酸生产柚皮苷的能力。
作为各种黄酮类化合物的关键分子支架,柚皮苷是一种具有广泛医药应用价值的高附加值化学品。为了从醋酸酯中高效生产柚皮苷,通过适当的 pckA 表达控制来精确调节 OAA-PEP 调节节点的碳通量至关重要,因为过度表达 pckA 会导致 OAA 的大量损失和代谢失衡。然而,考虑到 pckA 对柚皮苷生物合成的关键影响,传统的基因表达转录调控策略在覆盖庞大而平衡的溶液空间方面能力有限,可能导致柚皮苷产量不达标。为了克服这一障碍,本研究在转录和翻译水平上对 pckA 的表达进行了微调,以精确探索醋酸酯生产柚皮苷的最佳途径。具体来说,我们利用不同强度的启动子和合理设计的具有不同翻译效率的 5'-UTR 变体生成了一个组合表达库。此外,我们还通过验证 PCK 活性与柚皮苷产量之间的相关性,确定了调节 pckA 表达的效果。结果,通量优化菌株的柚皮苷产量显著增加,与未优化菌株相比增加了 49.8 倍,柚皮苷产量为 122.12 mg/L。总之,这项研究证明了转录和翻译通量再平衡在关键调控节点上的重要性,提出了一种利用醋酸盐生物合成柚皮苷衍生的各种类黄酮的关键代谢工程策略。
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
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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