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Combinatorial Metabolic Engineering of <i>Escherichia coli</i> for Enhanced L-Cysteine Production: Insights into Crucial Regulatory Modes and Optimization of Carbon-Sulfur Metabolism and Cofactor Availability

Hui Yang, Bo Zhang, Zidan Wu, Li-Feng Chen, Jiayuan Pan, Xiao-Ling Xiu, Xue Cai, Zhi‐Qiang Liu, Yu‐Guo Zheng

2023Journal of Agricultural and Food Chemistry20 citationsDOI

Abstract

cell factory dedicated to L-cysteine production. First, the crucial regulatory modes that control L-cysteine levels were investigated to guide metabolic modifications. A two-stage fermentation was achieved by employing multi-copy gene expression, improving the balance between production and growth. Subsequently, carbon flux distribution was further optimized by modifying the C1 unit metabolism and the glycolytic pathway. The modifications of sulfur assimilation demonstrated superior performance of thiosulfate utilization pathways in enhancing L-cysteine titer. Furthermore, the studies focusing on cofactor availability and preference emphasized the vital role of synergistic enhancement of sulfur-carbon metabolism in L-cysteine overproduction. In a 5 L bioreactor, the strain BW15-3/pED accumulated 12.6 g/L of L-cysteine. This work presented an effective metabolic engineering strategy for the development of L-cysteine-producing strains.

Topics & Concepts

Metabolic engineeringCysteineBiochemistryEscherichia coliMetabolismSulfur metabolismMetabolic pathwayBioreactorCofactorAssimilation (phonology)ChemistryFermentationSulfurOverproductionFlux balance analysisFlux (metallurgy)Microbial metabolismMetabolic flux analysisBiologyEnzymeBacteriaGeneOrganic chemistryPhilosophyLinguisticsGeneticsMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversionEnzyme Structure and Function
Combinatorial Metabolic Engineering of <i>Escherichia coli</i> for Enhanced L-Cysteine Production: Insights into Crucial Regulatory Modes and Optimization of Carbon-Sulfur Metabolism and Cofactor Availability | Litcius