Integrated constraints based analysis of an engineered violacein pathway in Escherichia coli

Bio Systems
Selva Rupa Christinal ImmanuelAnu Raghunathan

Abstract

Strategies towards optimal violacein biosynthesis, a potential drug molecule, need systems level coordination of enzymatic activities of individual genes in a multigene operon vioABCDE. Constraints-based flux balance analysis of an extended iAF1260 model (iAF1260vio) with a reconstructed violacein module predicted growth and violacein yields in Escherichia coli accurately. Shadow price (SP) analysis identified tryptophan metabolism and NADPH as limiting. Increased tryptophan levels in Δpgi & ΔpheA were validated using in silico gene deletion analysis. Phenotypic phase plane (PhPP) analysis highlighted sensitivity between tryptophan and NADPH for violacein synthesis at molar growth yields. A synthetic VioABCDE operon (SYNO) sequence was designed to maximize Codon Adaptive Index (CAI: 0.9) and tune translation initiation rates (TIR: 2-50 fold higher) in E. coli. All pSYN E. coli transformants produced higher violacein, with a maximum six-fold increase in yields. The rational design E. coli: ΔpheA SYN: gave the highest violacein titers (33.8 mg/l). Such integrated approaches targeting multiple molecular hierarchies in the cell can be extended further to increase violacein yields.

Citations

Mar 13, 2021·Journal of Biological Engineering·Seong Yeol ChoiRobert J Mitchell
Mar 19, 2021·Critical Reviews in Biotechnology·HyunA ParkKwon-Young Choi
Nov 11, 2020·Computers in Biology and Medicine·S RanjbarA Bogaerts

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