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Cell Factory Design and Culture Process Optimization for Dehydroshikimate Biosynthesis in Escherichia coli.


ABSTRACT: 3-Dehydroshikimate (DHS) is a useful starting metabolite for the biosynthesis of muconic acid (MA) and shikimic acid (SA), which are precursors of various valuable polymers and drugs. Although DHS biosynthesis has been previously reported in several bacteria, the engineered strains were far from satisfactory, due to their low DHS titers. Here, we created an engineered Escherichia coli cell factory to produce a high titer of DHS as well as an efficient system for the conversion DHS into MA. First, the genes showing negative effects on DHS accumulation in E. coli, such as tyrR (tyrosine dependent transcriptional regulator), ptsG (glucose specific sugar: phosphoenolpyruvate phosphotransferase), and pykA (pyruvate kinase 2), were disrupted. In addition, the genes involved in DHS biosynthesis, such as aroB (DHQ synthase), aroD (DHQ dehydratase), ppsA (phosphoenolpyruvate synthase), galP (D-galactose transporter), aroG (DAHP synthase), and aroF (DAHP synthase), were overexpressed to increase the glucose uptake and flux of intermediates. The redesigned DHS-overproducing E. coli strain grown in an optimized medium produced ~117 g/L DHS in 7-L fed-batch fermentation, which is the highest level of DHS production demonstrated in E. coli. To accomplish the DHS-to-MA conversion, which is originally absent in E. coli, a codon-optimized heterologous gene cassette containing asbF, aroY, and catA was expressed as a single operon under a strong promoter in a DHS-overproducing E. coli strain. This redesigned E. coli grown in an optimized medium produced about 64.5 g/L MA in 7-L fed-batch fermentation, suggesting that the rational cell factory design of DHS and MA biosynthesis could be a feasible way to complement petrochemical-based chemical processes.

SUBMITTER: Choi SS 

PROVIDER: S-EPMC6795058 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Cell Factory Design and Culture Process Optimization for Dehydroshikimate Biosynthesis in <i>Escherichia coli</i>.

Choi Si-Sun SS   Seo Seung-Yeul SY   Park Sun-Ok SO   Lee Han-Na HN   Song Ji-Soo JS   Kim Ji-Yeon JY   Park Ji-Hoon JH   Kim Sangyong S   Lee Sang Joung SJ   Chun Gie-Taek GT   Kim Eung-Soo ES  

Frontiers in bioengineering and biotechnology 20191009


3-Dehydroshikimate (DHS) is a useful starting metabolite for the biosynthesis of muconic acid (MA) and shikimic acid (SA), which are precursors of various valuable polymers and drugs. Although DHS biosynthesis has been previously reported in several bacteria, the engineered strains were far from satisfactory, due to their low DHS titers. Here, we created an engineered <i>Escherichia coli</i> cell factory to produce a high titer of DHS as well as an efficient system for the conversion DHS into MA  ...[more]

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