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Structural analysis of an anthrol reductase inspires enantioselective synthesis of enantiopure hydroxycycloketones and β-halohydrins

Author

Listed:
  • Xiaodong Hou

    (Jiangnan University)

  • Huibin Xu

    (Jiangnan University)

  • Zhenbo Yuan

    (Jiangnan University)

  • Zhiwei Deng

    (Jiangnan University)

  • Kai Fu

    (Jiangnan University)

  • Yue Gao

    (Jiangnan University)

  • Changmei Liu

    (Jiangnan University)

  • Yan Zhang

    (Jiangnan University)

  • Yijian Rao

    (Jiangnan University)

Abstract

Asymmetric reduction of prochiral ketones, particularly, reductive desymmetrization of 2,2-disubstituted prochiral 1,3-cyclodiketones to produce enantiopure chiral alcohols is challenging. Herein, an anthrol reductase CbAR with the ability to accommodate diverse bulky substrates, like emodin, for asymmetric reduction is identified. We firstly solve crystal structures of CbAR and CbAR-Emodin complex. It reveals that Tyr210 is critical for emodin recognition and binding, as it forms a hydrogen-bond interaction with His162 and π-π stacking interactions with emodin. This ensures the correct orientation for the stereoselectivity. Then, through structure-guided engineering, variant CbAR-H162F can convert various 2,2-disubstituted 1,3-cyclodiketones and α-haloacetophenones to optically pure (2S, 3S)-ketols and (R)-β-halohydrins, respectively. More importantly, their stereoselectivity mechanisms are also well explained by the respective crystal structures of CbAR-H162F-substrate complex. Therefore, this study demonstrates that an in-depth understanding of catalytic mechanism is valuable for exploiting the promiscuity of anthrol reductases to prepare diverse enantiopure chiral alcohols.

Suggested Citation

  • Xiaodong Hou & Huibin Xu & Zhenbo Yuan & Zhiwei Deng & Kai Fu & Yue Gao & Changmei Liu & Yan Zhang & Yijian Rao, 2023. "Structural analysis of an anthrol reductase inspires enantioselective synthesis of enantiopure hydroxycycloketones and β-halohydrins," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36064-4
    DOI: 10.1038/s41467-023-36064-4
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    1. Haohua Huo & Xiaodong Shen & Chuanyong Wang & Lilu Zhang & Philipp Röse & Liang-An Chen & Klaus Harms & Michael Marsch & Gerhard Hilt & Eric Meggers, 2014. "Asymmetric photoredox transition-metal catalysis activated by visible light," Nature, Nature, vol. 515(7525), pages 100-103, November.
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