Archive > Volume 18 Issue 1 > 2026,18(1):11-28. DOI:https://doi.org/10.1016/j.chmed.2025.11.006 Prev Next

合成生物学技术在药用植物活性化合物生物合成中的前沿应用

Reviews

Advanced applications of synthetic biology technology in biosynthesis of bioactive compounds from medicinal plants

  • Article
  • Figures
  • Metrics
  • Preview PDF
  • Reference
  • Related
  • Cited by
  • Materials
    摘要:
    药用植物是生物活性化合物的重要来源,这些化合物在医药、农业和工业领域具有关键应用价值。与化学合成和植物提取相比,合成生物学为生物活性化合物的生产提供了绿色、高效且可持续的替代方案。然而,该技术仍面临诸多挑战,包括代谢途径过长、关键酶催化效率不足、基因元件与宿主细胞不兼容等,导致目标生物活性化合物产量偏低。合成生物学调控工具的开发与应用为克服这些障碍展现出巨大潜力。本综述首先基于结构类型总结了生物活性化合物的分类及生物合成途径,随后概述了调控工具的最新进展及其在生物活性化合物异源生产中的应用。本文旨在为基于微生物细胞工厂的生物活性化合物高效生产奠定基础。这不仅对减少传统生产方式的资源消耗和环境影响具有重要实践意义,而且凸显了合成生物学在推动药用植物源生物活性化合物可持续生产中的核心作用。

    Abstract:
    Medicinal plants serve as valuable sources of bioactive compounds with critical applications across pharmaceutical, agricultural, and industrial sectors. Compared to chemical synthesis and plant extraction, synthetic biology offers a green, efficient, and sustainable alternative for producing bioactive compounds, which represents a state of art technology. However, this technology still faces several challenges, including overly long metabolic pathways, inadequate catalytic efficiency of key enzymes in the pathway, and incompatibility between gene elements and host cells, leading to low yields of target bioactive compounds. The development and application of regulatory tools in synthetic biology hold great promise for overcoming these obstacles. This review first summarizes the classification and biosynthesis of bioactive compounds based on structural types. Subsequently, recent advancements are outlined in regulation tools and their application in the heterologous production of bioactive compounds. This review aims to establish a foundation for the efficient production of bioactive compounds based on microbial cell factories. This not only has significant practical implications for reducing the resource consumption and environmental impact of traditional production methods, but also highlights the central role of synthetic biology in promoting the sustainable production of bioactive compounds derived from medicinal plants.

    关键词:
    生物活性化合物;代谢工程;药用植物;调控工具;合成生物学

    Keywords:


    Project Supported:
    The authors received the financial support from National Natural Science Foundation of China (No. 32401215 to HS No. 2247081930 to HYJ), the non-profit Central Research Institute Fund of Chinese Academy of Medical Sciences (No. 2023-I2M-3-015), State Key Laboratory for Quality Ensurance and Sustainable Use of Dao-di Herbs (No. 20240104).

    Clc Number:

WeChat

Mobile website

Chinese Herbal Medicines (CHM) ® 2026 All Rights Reserved
津备案:津ICP备13000267号 互联网药品信息服务资格证书编号:(津)-非经营性-2015-0031
Supported by:Beijing E-Tiller Technology Development Co., Ltd.