Ecotoxicology and Environmental Safety (Sep 2023)

Metabolic engineering of Escherichia coli for 2,4-dinitrotoluene degradation

  • Wen-Hui Zhang,
  • Yong-Dong Deng,
  • Zhi-Feng Chen,
  • Zhi-Hao Zuo,
  • Yong-Sheng Tian,
  • Jing Xu,
  • Bo Wang,
  • Li-Juan Wang,
  • Hong-Juan Han,
  • Zhen-Jun Li,
  • Yu Wang,
  • Quan-Hong Yao,
  • Jian-Jie Gao,
  • Xiao-Yan Fu,
  • Ri-He Peng

Journal volume & issue
Vol. 262
p. 115287

Abstract

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2,4-Dinitrotoluene (2,4-DNT) as a common industrial waste has been massively discharged into the environment with industrial wastewater. Due to its refractory degradation, high toxicity, and bioaccumulation, 2,4-DNT pollution has become increasingly serious. Compared with the currently available physical and chemical methods, in situ bioremediation is considered as an economical and environmentally friendly approach to remove toxic compounds from contaminated environment. In this study, we relocated a complete degradation pathway of 2,4-DNT into Escherichia coli to degrade 2,4-DNT completely. Eight genes from Burkholderia sp. strain were re-synthesized by PCR-based two-step DNA synthesis method and introduced into E. coli. Degradation experiments revealed that the transformant was able to degrade 2,4-DNT completely in 12 h when the 2,4-DNT concentration reached 3 mM. The organic acids in the tricarboxylic acid cycle were detected to prove the degradation of 2,4-DNT through the artificial degradation pathway. The results proved that 2,4-DNT could be completely degraded by the engineered bacteria. In this study, the complete degradation pathway of 2,4-DNT was constructed in E. coli for the first time using synthetic biology techniques. This research provides theoretical and experimental bases for the actual treatment of 2,4-DNT, and lays a technical foundation for the bioremediation of organic pollutants.

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