Escherichia coli W3110-TAA05

Ancestors

All strains

Escherichia coli K12

Escherichia coli W1485

Escherichia coli W2637

Escherichia coli W3110

Escherichia coli W3110 (DE3)

Escherichia coli W3110-P1

Escherichia coli W3110-P2

Escherichia coli W3110-P3

Escherichia coli W3110-P4

Escherichia coli W3110-P5

Escherichia coli W3110-P6

Escherichia coli W3110-TAA04

Escherichia coli W3110-TAA05

Derived strains

Escherichia coli W3110-TAA06

Genotype with respect to parental

Δycgh::P_T7pyc

Genotype with respect to wild type

F⁺ (λ) | λ- | inv(rrnD-rrnE) | F-, λ-, rph-1, IN (rrnD, rrnE) | (DE3) | ∆frdA | ΔldhA | ΔpoxB | Δpta-ack | ΔpflB | ΔadhE | Plasmid pETDuet-adi1-tbrB added | Δycgh::P_T7pyc

Bars (|) indicate differences between strains.

Plasmids

pETDuet-adi1-tbrB (adi1 and tbrB)

Modifications

Gene	Organism	Modification
ycgH	Escherichia coli	Silencing
pyc	Corynebacterium glutamicum	Feedback insensitive

Production

Metabolites	Production type	Production	Biomass	Carbon source	Time	Scale	Ref.
trans-aconitate	Titer	10.99 g/L		Glucose	32 h	Flask	[328]
pyruvate	Titer	0.89 g/L		Glucose	12 h	Flask	[328]
pyruvate	Titer	0.1 g/L		Glucose	24 h	Flask	[328]

* Inferred from plots using RetroPlot.

Heterologous.

Target metabolites are shown in bold, while non-bold metabolites represent intermediates or potential byproducts.

References

Leilei Guo, Yi Cheng, Xiaoxu Tan, Hongxu Zhang, Hairong Yu, Wenjia Tian, Mingyuan Liu, Weikang Sun, Kaiyu Gao, Tianyi Jiang, Qianjin Kang, Wensi Meng, Yidong Liu, Zhaoqi Kang, Chuanjuan Lü, Chao Gao, Ping Xu & Cuiqing Ma (2025). Efficient trans-aconitic acid production using systematically metabolic engineered Escherichia coli. Synthetic and Systems Biotechnology.