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Combinatorial Metabolic Engineering of <i>Escherichia coli</i> MG1655 Enables Efficient Biosynthesis of Vitamin B<sub>6</sub>

Xu Xue, Z.W. Chen, Haoran Sun, Xinyu Zhang, Zichen Lin, Naiqiang Li

2025Journal of Agricultural and Food Chemistry7 citationsDOI

Abstract

Pyridoxine (PN) is the most important commercial form of vitamin B 6 . Currently, PN is chemically synthesized using toxic chemicals, causing environmental pollution. Microbial production of vitamin B 6 offers a more sustainable alternative, but its low productivity makes it difficult to meet commercialization demands. Here, metabolic engineering strategies were used to efficiently improve the PN production. Directed evolution of 4-phosphoerythronate dehydrogenase led to a 4-fold increase in PN production. In addition, the pdxK and pdxH genes were then knocked out to redirect the metabolic flux from pyridoxine 5′-phosphate to PN, and genes involved in glycerol-to-pentose phosphate metabolism were overexpressed to increase precursors for PN synthesis. Finally, the recombinant strain produced 2120.1 ± 7.8 mg/L PN with a productivity of 32.1 mg/L/h by batch fermentation. The strategies reported here will be useful for the efficient and sustainable biobased production of PN.

Topics & Concepts

Escherichia coliMetabolic engineeringBiosynthesisSynthetic biologyChemistryVitamin bBiochemistryVitaminBiotechnologyComputational biologyBiochemical engineeringFood scienceBiologyEnzymeEngineeringGeneMicrobial Metabolic Engineering and BioproductionEnzyme Structure and FunctionBiochemical Acid Research Studies