Pathway optimization by re-design of untranslated regions for L-tyrosine production in Escherichia coli.

Seong Cheol Kim, Byung Eun Min, Hyun Gyu Hwang, Sang Woo Seo, Gyoo Yeol Jung

Scientific reports 2015

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L-tyrosine is a commercially important compound in the food, pharmaceutical, chemical, and cosmetic industries. Although several attempts have been made to improve L-tyrosine production, translation-level expression control and carbon flux rebalancing around phosphoenolpyruvate (PEP) node still remain to be achieved for optimizing the pathway. Here, we demonstrate pathway optimization by altering gene expression levels for L-tyrosine production in Escherichia coli. To optimize the L-tyrosine biosynthetic pathway, a synthetic constitutive promoter and a synthetic 5'-untranslated region (5'-UTR) were introduced for each gene of interest to allow for control at both transcription and translation levels. Carbon flux rebalancing was achieved by controlling the expression level of PEP synthetase using UTR Designer. The L-tyrosine productivity of the engineered E. coli strain was increased through pathway optimization resulting in 3.0 g/L of L-tyrosine titer, 0.0354 g L-tyrosine/h/g DCW of productivity, and 0.102 g L-tyrosine/g glucose yield. Thus, this work demonstrates that pathway optimization by 5'-UTR redesign is an effective strategy for the development of efficient L-tyrosine-producing bacteria.

Citation

Seong Cheol Kim, Byung Eun Min, Hyun Gyu Hwang, Sang Woo Seo, Gyoo Yeol Jung. Pathway optimization by re-design of untranslated regions for L-tyrosine production in Escherichia coli. Scientific reports. 2015;5:13853