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Carbene-catalyzed chirality-controlled site-selective acylation of saccharides

Author

Listed:
  • Ying-Guo Liu

    (Zhengzhou University
    Zhengzhou University)

  • Zetao Zhong

    (Zhengzhou University)

  • Yuyang Tang

    (Zhengzhou University)

  • Hongling Wang

    (Nanyang Technological University)

  • Sai Vikrama Chaitanya Vummaleti

    (The Chinese University of Hong Kong, Shatin
    Technology and Research (A*STAR))

  • Xi Peng

    (Zhengzhou University)

  • Peng Peng

    (Shandong University)

  • Xinglong Zhang

    (The Chinese University of Hong Kong, Shatin
    Technology and Research (A*STAR))

  • Yonggui Robin Chi

    (Nanyang Technological University)

Abstract

Acylation stands as a fundamental process in both biological pathways and synthetic chemical reactions, with acylated saccharides and their derivatives holding diverse applications ranging from bioactive agents to synthetic building blocks. A longstanding objective in organic synthesis has been the site-selective acylation of saccharides without extensive pre-protection of alcohol units. In this study, we demonstrate that by simply altering the chirality of N-heterocyclic carbene (NHC) organic catalysts, the site-selectivity of saccharide acylation reactions can be effectively modulated. Our investigation reveals that this intriguing selectivity shift stems from a combination of factors, including chirality match/mismatch and inter- / intramolecular hydrogen bonding between the NHC catalyst and saccharide substrates. These findings provide valuable insights into catalyst design and reaction engineering, highlighting potential applications in glycoside analysis, such as fluorescent labelling, α/β identification, orthogonal reactions, and selective late-stage modifications.

Suggested Citation

  • Ying-Guo Liu & Zetao Zhong & Yuyang Tang & Hongling Wang & Sai Vikrama Chaitanya Vummaleti & Xi Peng & Peng Peng & Xinglong Zhang & Yonggui Robin Chi, 2025. "Carbene-catalyzed chirality-controlled site-selective acylation of saccharides," Nature Communications, Nature, vol. 16(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-024-55282-y
    DOI: 10.1038/s41467-024-55282-y
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    References listed on IDEAS

    as
    1. Qiuhan Li & Samuel M. Levi & Corin C. Wagen & Alison E. Wendlandt & Eric N. Jacobsen, 2022. "Site-selective, stereocontrolled glycosylation of minimally protected sugars," Nature, Nature, vol. 608(7921), pages 74-79, August.
    2. Yang Liu & Xiaofeng Qi & Linda Donnelly & Nadia Elghobashi-Meinhardt & Tao Long & Rich W. Zhou & Yingyuan Sun & Boyuan Wang & Xiaochun Li, 2022. "Mechanisms and inhibition of Porcupine-mediated Wnt acylation," Nature, Nature, vol. 607(7920), pages 816-822, July.
    3. Yuanyuan Xu & Hongwei Chen & Lu Yu & Xichao Peng & Jiawei Zhang & Zhongqiu Xing & Yuyan Bao & Aokun Liu & Yue Zhao & Changlin Tian & Yong Liang & Xiaoqiang Huang, 2024. "A light-driven enzymatic enantioselective radical acylation," Nature, Nature, vol. 625(7993), pages 74-78, January.
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