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High-Level Production of Indole-3-acetic Acid in the Metabolically Engineered <i>Escherichia coli</i>

Hongxuan Wu, Jinhua Yang, Peijie Shen, Qingchen Li, Weibin Wu, Xianzhang Jiang, Lina Qin, Jianzhong Huang, Xiao Cao, Feng Qi

2021Journal of Agricultural and Food Chemistry35 citationsDOI

Abstract

Indole-3-acetic acid (IAA) is a critical plant hormone that regulates cell division, development, and metabolism. IAA synthesis in plants and plant-associated microorganisms cannot fulfill the requirement for large-scale agricultural production. Here, two novel IAA biosynthesis pathways, tryptamine (TAM) and indole-3-acetamide (IAM), were developed for IAA production by whole-cell catalysis and de novo biosynthesis in an engineered Escherichia coli MG1655. When 10 g/L l-tryptophan was used as a substrate, an MIA-6 strain containing a heterologous IAM pathway had the highest IAA titer of 7.10 g/L (1.34 × 103 mg/g DCW), which was 98.4 times more than MTAI-5 containing the TAM pathway by whole-cell catalysis. De novo IAA biosynthesis was optimized by improving NAD(P)H availability, resulting in an increased IAA titer of 906 mg/L obtained by the MGΔadhE::icd strain, which is 29.7% higher than the control. These strategies exhibit the potential for IAA production in engineered E. coli and possible industrial applications.

Topics & Concepts

Escherichia coliTryptamineBiochemistryBiosynthesisIndole-3-acetic acidMetabolic engineeringHeterologousChemistryTryptophanBioproductionIndole testNAD+ kinaseBiologyAuxinEnzymeAmino acidGeneMicrobial Metabolic Engineering and BioproductionFungal and yeast genetics researchCRISPR and Genetic Engineering
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