Metabolic engineering of Escherichia coli for high-yield uridine production

尿苷 生物化学 大肠杆菌 核苷 尿嘧啶 代谢工程 枯草芽孢杆菌 嘧啶 化学 发酵 生物 嘧啶代谢 细菌 基因 核糖核酸 DNA 遗传学 嘌呤
作者
Heyun Wu,Yanjun Li,Qian Ma,Qiang Li,Zifan Jia,Bo Yang,Qingyang Xu,Xiaoguang Fan,Chenglin Zhang,Ning Chen,Xixian Xie
出处
期刊:Metabolic Engineering [Elsevier BV]
卷期号:49: 248-256 被引量:97
标识
DOI:10.1016/j.ymben.2018.09.001
摘要

Uridine is a kind of pyrimidine nucleoside that has been widely applied in the pharmaceutical industry. Although microbial fermentation is a promising method for industrial production of uridine, an efficient microbial cell factory is still lacking. In this study, we constructed a metabolically engineered Escherichia coli capable of high-yield uridine production. First, we developed a CRISPR/Cas9-mediated chromosomal integration strategy to integrate large DNA into the E. coli chromosome, and a 9.7 kb DNA fragment including eight genes in the pyrimidine operon of Bacillus subtilis F126 was integrated into the yghX locus of E. coli W3110. The resultant strain produced 3.3 g/L uridine and 4.5 g/L uracil in shake flask culture for 32 h. Subsequently, five genes involved in uridine catabolism were knocked out, and the uridine titer increased to 7.8 g/L. As carbamyl phosphate, aspartate, and 5'-phosphoribosyl pyrophosphate are important precursors for uridine synthesis, we further modified several metabolism-related genes and synergistically improved the supply of these precursors, leading to a 76.9% increase in uridine production. Finally, nupC and nupG encoding nucleoside transport proteins were deleted, and the extracellular uridine accumulation increased to 14.5 g/L. After 64 h of fed-batch fermentation, the final engineered strain UR6 produced 70.3 g/L uridine with a yield and productivity of 0.259 g/g glucose and 1.1 g/L/h, respectively. To the best of our knowledge, this is the highest uridine titer and productivity ever reported for the fermentative production of uridine.
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