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Defining synonymous codon compression schemes by genome recoding

Author

Listed:
  • Kaihang Wang

    (Medical Research Council Laboratory of Molecular Biology)

  • Julius Fredens

    (Medical Research Council Laboratory of Molecular Biology)

  • Simon F. Brunner

    (Medical Research Council Laboratory of Molecular Biology)

  • Samuel H. Kim

    (Medical Research Council Laboratory of Molecular Biology
    Cambridge University)

  • Tiongsun Chia

    (Medical Research Council Laboratory of Molecular Biology)

  • Jason W. Chin

    (Medical Research Council Laboratory of Molecular Biology
    Cambridge University)

Abstract

Synthetic recoding of genomes, to remove targeted sense codons, may facilitate the encoded cellular synthesis of unnatural polymers by orthogonal translation systems. However, our limited understanding of allowed synonymous codon substitutions, and the absence of methods that enable the stepwise replacement of the Escherichia coli genome with long synthetic DNA and provide feedback on allowed and disallowed design features in synthetic genomes, have restricted progress towards this goal. Here we endow E. coli with a system for efficient, programmable replacement of genomic DNA with long (>100-kb) synthetic DNA, through the in vivo excision of double-stranded DNA from an episomal replicon by CRISPR/Cas9, coupled to lambda-red-mediated recombination and simultaneous positive and negative selection. We iterate the approach, providing a basis for stepwise whole-genome replacement. We attempt systematic recoding in an essential operon using eight synonymous recoding schemes. Each scheme systematically replaces target codons with defined synonyms and is compatible with codon reassignment. Our results define allowed and disallowed synonymous recoding schemes, and enable the identification and repair of recoding at idiosyncratic positions in the genome.

Suggested Citation

  • Kaihang Wang & Julius Fredens & Simon F. Brunner & Samuel H. Kim & Tiongsun Chia & Jason W. Chin, 2016. "Defining synonymous codon compression schemes by genome recoding," Nature, Nature, vol. 539(7627), pages 59-64, November.
    • Handle: RePEc:nat:nature:v:539:y:2016:i:7627:d:10.1038_nature20124
    DOI: 10.1038/nature20124
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    Cited by:

    1. Donghui Choe & Connor A. Olson & Richard Szubin & Hannah Yang & Jaemin Sung & Adam M. Feist & Bernhard O. Palsson, 2024. "Advancing the scale of synthetic biology via cross-species transfer of cellular functions enabled by iModulon engraftment," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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