期刊
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY
卷 71, 期 29, 页码 10916-10931出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jafc.3c02156
关键词
metabolic engineering; pathway design; fluxoptimization; catalytic efficiency improvement; dicarboxylic acids; Escherichia coli
Industrial microbes like Escherichia coli are used as an alternative to petrochemical synthesis to produce various chemicals, including dicarboxylic acids (DCAs), which have potential applications in biodegradable polymers. The demand for biodegradable polymers is increasing, leading to the development of efficient production pathways using E. coli for C4 and C5 DCAs derived from central carbon metabolism. This review discusses recent advancements in metabolic engineering techniques for the production of C4 and C5 DCAs in E. coli.
As an alternative to petrochemical synthesis, well-establishedindustrial microbes, such as Escherichia coli, areemployed to produce a wide range of chemicals, including dicarboxylicacids (DCAs), which have significant potential in diverse areas includingbiodegradable polymers. The demand for biodegradable polymers hasbeen steadily rising, prompting the development of efficient productionpathways on four- (C4) and five-carbon (C5) DCAs derived from centralcarbon metabolism to meet the increased demand via the biosynthesis.In this context, E. coli is utilized to produce theseDCAs through various metabolic engineering strategies, including thedesign or selection of metabolic pathways, pathway optimization, andenhancement of catalytic activity. This review aims to highlight therecent advancements in metabolic engineering techniques for the productionof C4 and C5 DCAs in E. coli.
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