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Structural insight into the electron transfer pathway of a self-sufficient P450 monooxygenase

Author

Listed:
  • Lilan Zhang

    (Hubei University)

  • Zhenzhen Xie

    (Hubei University)

  • Ziwei Liu

    (Hubei University)

  • Shuyu Zhou

    (Hubei University)

  • Lixin Ma

    (Hubei University)

  • Weidong Liu

    (Hubei University)

  • Jian-Wen Huang

    (Hubei University)

  • Tzu-Ping Ko

    (Institute of Biological Chemistry, Academia Sinica)

  • Xiuqin Li

    (Hubei University)

  • Yuechan Hu

    (Hubei University)

  • Jian Min

    (Hubei University)

  • Xuejing Yu

    (Hubei University)

  • Rey-Ting Guo

    (Hubei University)

  • Chun-Chi Chen

    (Hubei University)

Abstract

Cytochrome P450 monooxygenases are versatile heme-thiolate enzymes that catalyze a wide range of reactions. Self-sufficient cytochrome P450 enzymes contain the redox partners in a single polypeptide chain. Here, we present the crystal structure of full-length CYP116B46, a self-sufficient P450. The continuous polypeptide chain comprises three functional domains, which align well with the direction of electrons traveling from FMN to the heme through the [2Fe-2S] cluster. FMN and the [2Fe-2S] cluster are positioned closely, which facilitates efficient electron shuttling. The edge-to-edge straight-line distance between the [2Fe-2S] cluster and heme is approx. 25.3 Å. The role of several residues located between the [2Fe-2S] cluster and heme in the catalytic reaction is probed in mutagenesis experiments. These findings not only provide insights into the intramolecular electron transfer of self-sufficient P450s, but are also of interest for biotechnological applications of self-sufficient P450s.

Suggested Citation

  • Lilan Zhang & Zhenzhen Xie & Ziwei Liu & Shuyu Zhou & Lixin Ma & Weidong Liu & Jian-Wen Huang & Tzu-Ping Ko & Xiuqin Li & Yuechan Hu & Jian Min & Xuejing Yu & Rey-Ting Guo & Chun-Chi Chen, 2020. "Structural insight into the electron transfer pathway of a self-sufficient P450 monooxygenase," Nature Communications, Nature, vol. 11(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16500-5
    DOI: 10.1038/s41467-020-16500-5
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