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Metal-ligand dual-site single-atom nanozyme mimicking urate oxidase with high substrates specificity

Author

Listed:
  • Kaiyuan Wang

    (School of Chemistry and Chemical Engineering)

  • Qing Hong

    (School of Chemistry and Chemical Engineering)

  • Caixia Zhu

    (School of Chemistry and Chemical Engineering)

  • Yuan Xu

    (School of Chemistry and Chemical Engineering)

  • Wang Li

    (School of Chemistry and Chemical Engineering)

  • Ying Wang

    (School of Chemistry and Chemical Engineering)

  • Wenhao Chen

    (School of Chemistry and Chemical Engineering)

  • Xiang Gu

    (School of Chemistry and Chemical Engineering)

  • Xinghua Chen

    (School of Chemistry and Chemical Engineering)

  • Yanfeng Fang

    (School of Chemistry and Chemical Engineering)

  • Yanfei Shen

    (Southeast University)

  • Songqin Liu

    (School of Chemistry and Chemical Engineering)

  • Yuanjian Zhang

    (School of Chemistry and Chemical Engineering
    Southeast University)

Abstract

In nature, coenzyme-independent oxidases have evolved in selective catalysis using isolated substrate-binding pockets. Single-atom nanozymes (SAzymes), an emerging type of non-protein artificial enzymes, are promising to simulate enzyme active centers, but owing to the lack of recognition sites, realizing substrate specificity is a formidable task. Here we report a metal-ligand dual-site SAzyme (Ni-DAB) that exhibited selectivity in uric acid (UA) oxidation. Ni-DAB mimics the dual-site catalytic mechanism of urate oxidase, in which the Ni metal center and the C atom in the ligand serve as the specific UA and O2 binding sites, respectively, characterized by synchrotron soft X-ray absorption spectroscopy, in situ near ambient pressure X-ray photoelectron spectroscopy, and isotope labeling. The theoretical calculations reveal the high catalytic specificity is derived from not only the delicate interaction between UA and the Ni center but also the complementary oxygen reduction at the beta C site in the ligand. As a potential application, a Ni-DAB-based biofuel cell using human urine is constructed. This work unlocks an approach of enzyme-like isolated dual sites in boosting the selectivity of non-protein artificial enzymes.

Suggested Citation

  • Kaiyuan Wang & Qing Hong & Caixia Zhu & Yuan Xu & Wang Li & Ying Wang & Wenhao Chen & Xiang Gu & Xinghua Chen & Yanfeng Fang & Yanfei Shen & Songqin Liu & Yuanjian Zhang, 2024. "Metal-ligand dual-site single-atom nanozyme mimicking urate oxidase with high substrates specificity," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50123-4
    DOI: 10.1038/s41467-024-50123-4
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