Systematic Engineering of Escherichia coli for Efficient Production of Cytidine 5′-Monophosphate

Cytidine 5 '-monophosphate (CMP) was widely applied in the food and pharmaceutical industries. Currently, CMP is mainly produced by enzyme catalysis. However, the starting materials for enzyme catalysis were relatively expensive. Therefore, seeking a low-cost production process for CMP was attractive. In this study, Escherichia coli (E. coli) was systematically modified to produce CMP. First, a the cytidine-producing strain was constructed by deleting cdd, rihA, rihB, and rihC. Second, the genes involved in the pyrimidine precursor competing pathway and negative regulation were deleted to increase cyti dine biosynthesis. Third, the deletion of the genes that caused the loss of CMP phosphatase activity led to the accumulation of CMP, and the overexpression of the rate-limiting step genes and feedback inhibition resistance genes greatly increased the yield of CMP. The yield of CMP was further increased to 1013.6 mg/L by blocking CMP phosphorylation. Ultimately, the yield of CMP reached 15.3 g/L in a 50 L bioreactor. Overall, the engineered E. coli with a high yield of CMP was successfully constructed and showed the potential for industrial production.