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Faculty of Applied Sciences

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    Enhanced production of N-acetyl-d-neuraminic acid by whole-cell bio-catalysis of Escherichia coli
    (Elsevier, 2016) Zhou, Junbo; Chen, Xianzhong; Lu, Liping; Govender, Algasan; Haiquan, Yang; Shen, Wie
    N-acetyl-d-neuraminic acid (Neu5Ac) has been considerably focused due to its promising potential appli-cations in pharmaceuticals and dairy products. A whole-cell biocatalyst process is an important tool for synthesis of pharmaceutical intermediates and fine chemicals. In this study, a whole cell process using engineered Escherichia coli strain was developed and stepwise optimization was employed for Neu5Ac production. N-acetyl-D-glucosamine 2-epimerase and Neu5Ac aldolase were overexpressed in E. coli individually and the activity ratio was optimized by varying recombinant amounts of cell biomass for syn-thesis of Neu5Ac. Moreover, substrate concentrations and ratio of pyruvate and N-acetyl-D-glucosamine (GlcNAc) and detergent concentrations were optimized to increase product synthesis. The resulting process generated 237.4 mM Neu5Ac with a yield of 40.0% mol/mol GlcNAc. Furthermore, transporter pathways involved in Neu5Ac and GlcNAc were engineered and their impact on the Neu5Ac synthesis was evaluated. Using a stepwise optimization, an overall whole-cell biocatalytic process was developed and a maximum titer of 260.0 mM Neu5Ac (80.4 g/L) with a conversion yield of 43.3% from GlcNAc was achieved. The process can be used for industrial large-scale production of Neu5Ac in terms of efficiency and economy.