Cultivation of Engineered E. coli Bacteria for Organophosphorus Pesticide Degradation

Cultivation of Engineered E. coli Bacteria for Organophosphorus Pesticide Degradation

Organophosphorus pesticides are mainly used to prevent and control plant diseases, insects, and weed pests. The widespread use of organophosphorus pesticides in agricultural production has an important role in agricultural development. Still, the unregulated use of organophosphorus pesticides can lead to different degrees of residues in crops, affecting human health and causing serious environmental pollution. How to degrade organophosphorus pesticides is the focus of agricultural research.

Lifeasible is deeply involved in agricultural synthetic biology research and continues to provide effective solutions to the problems faced by agricultural development. We build high-efficiency E. coli engineered bacteria that can significantly improve the degradation efficiency of pesticides. Our continuous in-depth research on organophosphorus pesticide degradation genes, degradation pathways, and mechanisms in environmental microorganisms has provided an important research foundation and technical support for constructing genetically engineered bacteria with efficient degradation performance.

Cultivation of Engineered E. coli Bacteria for Organophosphorus Pesticide Degradation

Technical characteristics of cultivating E. coli engineered bacteria for organophosphorus pesticide degradation

  • Mature and perfect gene cloning and expression system.
  • Rapid propagation, simple culture, easy operation, and genetic stability of E. coli.
  • High efficiency and low cost.

Use of genetic engineering technology to breed organophosphorus pesticide degrading E. coli engineering bacteria

Microorganisms play an important role in the degradation of organophosphorus pesticides in the environment. The use of genetic engineering and biotechnology to develop microorganisms and their degrading enzymes can be effectively used to purify organophosphorus pesticide residues, and our cultivated organophosphorus pesticide is degrading E. coli engineering bacteria show good application prospects in the treatment of environmental pollution.

  • Cloning of degradation enzymes and degradation genes

Many pesticide degradation genes exist on plasmids or chromosomes. We have now isolated various phosphorus degradation enzyme genes from different microorganisms, laying a good foundation for the construction and modification of organophosphorus pesticide degrading E. coli engineering bacteria for the diversity and wide source of organophosphorus pesticide degrading genes.

  • Construction of genetically engineered bacteria

We construct efficient E. coli engineered bacteria that can significantly improve the degradation efficiency of pesticides. Our continuous in-depth research on organophosphorus pesticide degradation genes, degradation pathways, and mechanisms in environmental microorganisms has provided an important research foundation and technical support for constructing genetically engineered bacteria with efficient degradation performance.

Our use of microbial degradation of environmental pollutants has been widely used in environmental protection, and the degradation of organophosphorus pesticides by cultivated E. coli engineering bacteria is of great value in ensuring food safety and human health and promoting green and sustainable development of agriculture.

Our service advantages

Fig. 2. Our service advantages - Lifeasible

Lifeasible follows the latest direction of agricultural synthetic biology development, constantly providing advanced synthetic biology technology and effective solutions to solve the challenges faced in agricultural development and promote the green development of agriculture. If you are interested in us, please feel free to contact us.

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