Nicotinamide adenine dinucleotide (NAD) is an essential coenzyme involved in numerous physiological processes. As an attractive product in the industrial field, NAD also plays an important role in oxidoreductase-catalyzed reactions, drug synthesis, and the treatment of diseases, such as dementia, diabetes, and vascular dysfunction. Currently, although the biotechnology to construct NAD-overproducing strains has been developed, limited regulation and low productivity still hamper its use on large scales. Here, we describe multi-strategy metabolic engineering to address the NAD-production bottleneck in E. coli. First, blocking the degradation pathway of NAD(H) increased the accumulation of NAD by 39%. Second, key enzymes involved in the Preiss-Handler pathway of NAD synthesis were overexpressed and led to a 221% increase in the NAD concentration. Third, the PRPP synthesis module and Preiss-Handler pathway were combined to strengthen the precursors supply, which resulted in enhancement of NAD content by 520%. Fourth, increasing the ATP content led to an increase in the concentration of NAD by 170%. Finally, with the combination of all above strategies, a strain with a high yield of NAD was constructed, with the intracellular NAD concentration reaching 26.9 μmol/g DCW, which was 834% that of the parent strain. This study presents an efficient design of an NAD-producing strain through global regulation metabolic engineering.
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