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Titrating bacterial growth and chemical biosynthesis for efficient N-acetylglucosamine and N-acetylneuraminic acid bioproduction

Rongzhen Tian, Yanfeng Liu, Yanting Cao, Zhongjie Zhang, Jianghua Li, Long Liu, Guocheng Du, Jian Chen

2020Nature Communications71 citationsDOIOpen Access PDF

Abstract

Metabolic engineering facilitates chemical biosynthesis by rewiring cellular resources to produce target compounds. However, an imbalance between cell growth and bioproduction often reduces production efficiency. Genetic code expansion (GCE)-based orthogonal translation systems incorporating non-canonical amino acids (ncAAs) into proteins by reassigning non-canonical codons to ncAAs qualify for balancing cellular metabolism. Here, GCE-based cell growth and biosynthesis balance engineering (GCE-CGBBE) is developed, which is based on titrating expression of cell growth and metabolic flux determinant genes by constructing ncAA-dependent expression patterns. We demonstrate GCE-CGBBE in genome-recoded Escherichia coli Δ321AM by precisely balancing glycolysis and N-acetylglucosamine production, resulting in a 4.54-fold increase in titer. GCE-CGBBE is further expanded to non-genome-recoded Bacillus subtilis to balance growth and N-acetylneuraminic acid bioproduction by titrating essential gene expression, yielding a 2.34-fold increase in titer. Moreover, the development of ncAA-dependent essential gene expression regulation shows efficient biocontainment of engineered B. subtilis to avoid unintended proliferation in nature.

Topics & Concepts

BioproductionBacillus subtilisMetabolic engineeringBiosynthesisBiologyCell growthBiochemistryGeneGene expressionAmino acidTranslation (biology)Escherichia coliChemistryCell biologyMessenger RNABacteriaGeneticsRNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyMicrobial Metabolic Engineering and Bioproduction
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