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Crystal structures of herbicide-detoxifying esterase reveal a lid loop affecting substrate binding and activity

Author

Listed:
  • Bin Liu

    (Nanjing Agricultural University
    Jiangxi Normal University)

  • Weiwu Wang

    (Nanjing Agricultural University)

  • Jiguo Qiu

    (Nanjing Agricultural University)

  • Xing Huang

    (Nanjing Agricultural University)

  • Shenshen Qiu

    (Nanjing Agricultural University)

  • Yixuan Bao

    (Nanjing Agricultural University)

  • Siqiong Xu

    (Nanjing Agricultural University)

  • Luyao Ruan

    (Nanjing Agricultural University)

  • Tingting Ran

    (Nanjing Agricultural University)

  • Jian He

    (Nanjing Agricultural University)

Abstract

SulE, an esterase, which detoxifies a variety of sulfonylurea herbicides through de-esterification, provides an attractive approach to remove environmental sulfonylurea herbicides and develop herbicide-tolerant crops. Here, we determined the crystal structures of SulE and an activity improved mutant P44R. Structural analysis revealed that SulE is a dimer with spacious binding pocket accommodating the large sulfonylureas substrate. Particularly, SulE contains a protruding β hairpin with a lid loop covering the active site of the other subunit of the dimer. The lid loop participates in substrate recognition and binding. P44R mutation altered the lid loop flexibility, resulting in the sulfonylurea heterocyclic ring repositioning to a relative stable conformation thus leading to dramatically increased activity. Our work provides important insights into the molecular mechanism of SulE, and establish a solid foundation for further improving the enzyme activity to various sulfonylurea herbicides through rational design.

Suggested Citation

  • Bin Liu & Weiwu Wang & Jiguo Qiu & Xing Huang & Shenshen Qiu & Yixuan Bao & Siqiong Xu & Luyao Ruan & Tingting Ran & Jian He, 2023. "Crystal structures of herbicide-detoxifying esterase reveal a lid loop affecting substrate binding and activity," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40103-5
    DOI: 10.1038/s41467-023-40103-5
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    References listed on IDEAS

    as
    1. Thierry Lonhienne & Yan Cheng & Mario D. Garcia & Shu Hong Hu & Yu Shang Low & Gerhard Schenk & Craig M. Williams & Luke W. Guddat, 2022. "Structural basis of resistance to herbicides that target acetohydroxyacid synthase," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
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