代谢工程中L-鸟氨酸生物合成的最新进展

Recent Advances of L-ornithine Biosynthesis in Metabolically Engineered .

作者信息

Wu Xiao-Yu, Guo Xiao-Yan, Zhang Bin, Jiang Yan, Ye Bang-Ce

机构信息

Jiangxi Engineering Laboratory for the Development and Utilization of Agricultural Microbial Resources, College of Bioscience and Engineering, Jiangxi Agricultural University, Nanchang, China.

Laboratory of Biosystems and Microanalysis, State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology, Shanghai, China.

出版信息

Front Bioeng Biotechnol. 2020 Jan 9;7:440. doi: 10.3389/fbioe.2019.00440. eCollection 2019.

DOI:10.3389/fbioe.2019.00440

PMID:31998705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6962107/

Abstract

L-ornithine, a valuable non-protein amino acid, has a wide range of applications in the pharmaceutical and food industries. Currently, microbial fermentation is a promising, sustainable, and environment-friendly method to produce L-ornithine. However, the industrial production capacity of L-ornithine by microbial fermentation is low and rarely meets the market demands. Various strategies have been employed to improve the L-ornithine production titers in the model strain, , which serves as a major indicator for improving the cost-effectiveness of L-ornithine production by microbial fermentation. This review focuses on the development of high L-ornithine-producing strains by metabolic engineering and reviews the recent advances in breeding strategies, such as reducing by-product formation, improving the supplementation of precursor glutamate, releasing negative regulation and negative feedback inhibition, increasing the supply of intracellular cofactors, modulating the central metabolic pathway, enhancing the transport system, and adaptive evolution for improving L-ornithine production.

摘要

L-鸟氨酸是一种有价值的非蛋白质氨基酸，在制药和食品工业中有广泛应用。目前，微生物发酵是生产L-鸟氨酸的一种有前景、可持续且环境友好的方法。然而，通过微生物发酵生产L-鸟氨酸的工业生产能力较低，很少能满足市场需求。人们已采用各种策略来提高模式菌株中的L-鸟氨酸生产效价，这是提高微生物发酵生产L-鸟氨酸成本效益的一个主要指标。本综述聚焦于通过代谢工程开发高产L-鸟氨酸菌株，并综述了育种策略的最新进展，如减少副产物形成、改善前体谷氨酸的供应、解除负调控和负反馈抑制、增加细胞内辅因子的供应、调节中心代谢途径、增强转运系统以及通过适应性进化提高L-鸟氨酸产量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/89fd/6962107/3fdad9a94939/fbioe-07-00440-g0001.jpg

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代谢工程中L-鸟氨酸生物合成的最新进展

Recent Advances of L-ornithine Biosynthesis in Metabolically Engineered .

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