Combinatory optimization of chromosomal integrated mevalonate pathway for β-carotene production in Escherichia coli

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Abstract

Background: Plasmid expression is a popular method in studies of MVA pathway for isoprenoid production in Escherichia coli. However, heterologous gene expression with plasmid is often not stable and might burden growth of host cells, decreases cell mass and product yield. In this study, MVA pathway was divided into three modules, and two heterologous modules were integrated into the E. coli chromosome. These modules were individually modulated with regulatory parts to optimize efficiency of the pathway in terms of downstream isoprenoid production. Results: MVA pathway modules Hmg1-erg12 operon and mvaS-mvaA-mavD1 operon were integrated into E. coli chromosome followed by modulation with promoters with varied strength. Along with activation of atoB, a 26% increase of β-carotene production with no effect on cell growth was obtained. With a combinatory modulation of two key enzymes mvas and Hmg1 with degenerate RBS library, β-carotene showed a further increase of 51%. Conclusions: Our study provides a novel strategy for improving production of a target compound through integration and modulation of heterologous pathways in both transcription and translation level. In addition, a genetically hard-coded chassis with both efficient MEP and MVA pathways for isoprenoid precursor supply was constructed in this work.

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Ye, L., Zhang, C., Bi, C., Li, Q., & Zhang, X. (2016). Combinatory optimization of chromosomal integrated mevalonate pathway for β-carotene production in Escherichia coli. Microbial Cell Factories, 15(1). https://doi.org/10.1186/s12934-016-0607-3

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