Advanced Science (Aug 2024)

A Cost‐Effective Hemin‐Based Artificial Enzyme Allows for Practical Applications

  • Dehui Qiu,
  • Fangni He,
  • Yuan Liu,
  • Zhaoxi Zhou,
  • Yuqin Yang,
  • Zhongwen Long,
  • Qianqian Chen,
  • Desheng Chen,
  • Shijiong Wei,
  • Xuanxiang Mao,
  • Xiaobo Zhang,
  • Jean‐Louis Mergny,
  • David Monchaud,
  • Huangxian Ju,
  • Jun Zhou

DOI
https://doi.org/10.1002/advs.202402237
Journal volume & issue
Vol. 11, no. 32
pp. n/a – n/a

Abstract

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Abstract Nanomaterials excel in mimicking the structure and function of natural enzymes while being far more interesting in terms of structural stability, functional versatility, recyclability, and large‐scale preparation. Herein, the story assembles hemin, histidine analogs, and G‐quadruplex DNA in a catalytically competent supramolecular assembly referred to as assembly‐activated hemin enzyme (AA‐heminzyme). The catalytic properties of AA‐heminzyme are investigated both in silico (by molecular docking and quantum chemical calculations) and in vitro (notably through a systematic comparison with its natural counterpart horseradish peroxidase, HRP). It is found that this artificial system is not only as efficient as HRP to oxidize various substrates (with a turnover number kcat of 115 s−1) but also more practically convenient (displaying better thermal stability, recoverability, and editability) and more economically viable, with a catalytic cost amounting to <10% of that of HRP. The strategic interest of AA‐heminzyme is further demonstrated for both industrial wastewater remediation and biomarker detection (notably glutathione, for which the cost is decreased by 98% as compared to commercial kits).

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