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Structural basis for full-spectrum inhibition of translational functions on a tRNA synthetase

Author

Listed:
  • Pengfei Fang

    (Scripps Research Institute, Scripps Florida)

  • Xue Yu

    (Scripps Research Institute, Scripps Florida)

  • Seung Jae Jeong

    (Medicinal Bioconvergence Research Center, Seoul National University)

  • Adam Mirando

    (University of Vermont College of Medicine)

  • Kaige Chen

    (Scripps Research Institute, Scripps Florida)

  • Xin Chen

    (Scripps Research Institute, Scripps Florida)

  • Sunghoon Kim

    (Medicinal Bioconvergence Research Center, Seoul National University)

  • Christopher S. Francklyn

    (University of Vermont College of Medicine)

  • Min Guo

    (Scripps Research Institute, Scripps Florida)

Abstract

The polyketide natural product borrelidin displays antibacterial, antifungal, antimalarial, anticancer, insecticidal and herbicidal activities through the selective inhibition of threonyl-tRNA synthetase (ThrRS). How borrelidin simultaneously attenuates bacterial growth and suppresses a variety of infections in plants and animals is not known. Here we show, using X-ray crystal structures and functional analyses, that a single molecule of borrelidin simultaneously occupies four distinct subsites within the catalytic domain of bacterial and human ThrRSs. These include the three substrate-binding sites for amino acid, ATP and tRNA associated with aminoacylation, and a fourth ‘orthogonal’ subsite created as a consequence of binding. Thus, borrelidin competes with all three aminoacylation substrates, providing a potent and redundant mechanism to inhibit ThrRS during protein synthesis. These results highlight a surprising natural design to achieve the quadrivalent inhibition of translation through a highly conserved family of enzymes.

Suggested Citation

  • Pengfei Fang & Xue Yu & Seung Jae Jeong & Adam Mirando & Kaige Chen & Xin Chen & Sunghoon Kim & Christopher S. Francklyn & Min Guo, 2015. "Structural basis for full-spectrum inhibition of translational functions on a tRNA synthetase," Nature Communications, Nature, vol. 6(1), pages 1-11, May.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7402
    DOI: 10.1038/ncomms7402
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    Cited by:

    1. Mark A. Tye & N. Connor Payne & Catrine Johansson & Kritika Singh & Sofia A. Santos & Lọla Fagbami & Akansha Pant & Kayla Sylvester & Madeline R. Luth & Sofia Marques & Malcolm Whitman & Maria M. Mota, 2022. "Elucidating the path to Plasmodium prolyl-tRNA synthetase inhibitors that overcome halofuginone resistance," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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