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Biocontainment of genetically modified organisms by synthetic protein design

Author

Listed:
  • Daniel J. Mandell

    (Harvard Medical School)

  • Marc J. Lajoie

    (Harvard Medical School
    Program in Chemical Biology, Harvard University)

  • Michael T. Mee

    (Harvard Medical School
    Boston University)

  • Ryo Takeuchi

    (Fred Hutchinson Cancer Research Center)

  • Gleb Kuznetsov

    (Harvard Medical School)

  • Julie E. Norville

    (Harvard Medical School)

  • Christopher J. Gregg

    (Harvard Medical School)

  • Barry L. Stoddard

    (Fred Hutchinson Cancer Research Center)

  • George M. Church

    (Harvard Medical School
    Wyss Institute for Biologically Inspired Engineering, Harvard University)

Abstract

Genetically modified organisms (GMOs) are increasingly deployed at large scales and in open environments. Genetic biocontainment strategies are needed to prevent unintended proliferation of GMOs in natural ecosystems. Existing biocontainment methods are insufficient because they impose evolutionary pressure on the organism to eject the safeguard by spontaneous mutagenesis or horizontal gene transfer, or because they can be circumvented by environmentally available compounds. Here we computationally redesign essential enzymes in the first organism possessing an altered genetic code (Escherichia coli strain C321.ΔA) to confer metabolic dependence on non-standard amino acids for survival. The resulting GMOs cannot metabolically bypass their biocontainment mechanisms using known environmental compounds, and they exhibit unprecedented resistance to evolutionary escape through mutagenesis and horizontal gene transfer. This work provides a foundation for safer GMOs that are isolated from natural ecosystems by a reliance on synthetic metabolites.

Suggested Citation

  • Daniel J. Mandell & Marc J. Lajoie & Michael T. Mee & Ryo Takeuchi & Gleb Kuznetsov & Julie E. Norville & Christopher J. Gregg & Barry L. Stoddard & George M. Church, 2015. "Biocontainment of genetically modified organisms by synthetic protein design," Nature, Nature, vol. 518(7537), pages 55-60, February.
  • Handle: RePEc:nat:nature:v:518:y:2015:i:7537:d:10.1038_nature14121
    DOI: 10.1038/nature14121
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    Cited by:

    1. Stefan A. Hoffmann & Yizhi Cai, 2024. "Engineering stringent genetic biocontainment of yeast with a protein stability switch," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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