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A fully orthogonal system for protein synthesis in bacterial cells

Author

Listed:
  • Nikolay A. Aleksashin

    (University of Illinois at Chicago
    University of Illinois at Chicago)

  • Teresa Szal

    (University of Illinois at Chicago)

  • Anne E. d’Aquino

    (Northwestern University
    Northwestern University)

  • Michael C. Jewett

    (Northwestern University
    Northwestern University)

  • Nora Vázquez-Laslop

    (University of Illinois at Chicago
    University of Illinois at Chicago)

  • Alexander S. Mankin

    (University of Illinois at Chicago
    University of Illinois at Chicago)

Abstract

Ribosome engineering is a powerful approach for expanding the catalytic potential of the protein synthesis apparatus. Due to the potential detriment the properties of the engineered ribosome may have on the cell, the designer ribosome needs to be functionally isolated from the translation machinery synthesizing cellular proteins. One solution to this problem was offered by Ribo-T, an engineered ribosome with tethered subunits which, while producing a desired protein, could be excluded from general translation. Here, we provide a conceptually different design of a cell with two orthogonal protein synthesis systems, where Ribo-T produces the proteome, while the dissociable ribosome is committed to the translation of a specific mRNA. The utility of this system is illustrated by generating a comprehensive collection of mutants with alterations at every rRNA nucleotide of the peptidyl transferase center and isolating gain-of-function variants that enable the ribosome to overcome the translation termination blockage imposed by an arrest peptide.

Suggested Citation

  • Nikolay A. Aleksashin & Teresa Szal & Anne E. d’Aquino & Michael C. Jewett & Nora Vázquez-Laslop & Alexander S. Mankin, 2020. "A fully orthogonal system for protein synthesis in bacterial cells," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15756-1
    DOI: 10.1038/s41467-020-15756-1
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    Cited by:

    1. Zhiyuan Ma & Meitong Jiang & Chaoyang Liu & Ertao Wang & Yang Bai & Mengting Maggie Yuan & Shengjing Shi & Jizhong Zhou & Jixian Ding & Yimei Xie & Hui Zhang & Yan Yang & Renfang Shen & Thomas W. Crow, 2024. "Quinolone-mediated metabolic cross-feeding develops aluminium tolerance in soil microbial consortia," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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