生物学杂志

生物学杂志 ›› 2025, Vol. 42 ›› Issue (5): 75-.doi: 10.3969/j.issn.2095-1736.2025.05.075

• 研究报告 • 上一篇    下一篇

基于双酶偶联高效合成红景天苷

闫子旭1,2,3, 戴景莉1,2,3, 赵科学1,2,3, 李小利1,2,3, 徐雅婷2,3, 马静波2,3, 朱富成2,3   

  1. 1. 安徽中医药大学 药学院, 合肥 230012;
    2. 皖西学院 生物与制药工程学院, 六安 237012; 3. 安徽省大别山中医药研究院, 六安 237012
  • 出版日期:2025-10-18 发布日期:2025-10-14
  • 通讯作者: 马静波,博士,讲师,研究方向为合成生物学,E-mail:majingbo1223@163.com;朱富成,博士,副教授,研究方向为酶工程,E-mail:fucheng323@163.com;马静波和朱富成为共同通信作者
  • 作者简介:闫子旭,硕士研究生,研究方向为天然产物生物合成,E-mail:yzx07210423@163.com
  • 基金资助:
    国家自然科学基金项目(32201979);安徽省高校优秀青年科研项目(2023AH030109);安徽省优秀青年教师培育重点项目(YQZD2023071)

Efficient synthesis of salidroside via a two-enzyme one-pot cascade reaction

YAN Zixu1,2,3, DAI Jingli1,2,3, ZHAO Kexue1,2,3, LI Xiaoli1,2,3, XU Yating2,3,MA Jingbo2,3, ZHU Fucheng2,3   

  1. 1. School of Pharmacy, Anhui University of Chinese Medicine, Hefei 230012, China; 2. School of Biological and
    Pharmaceutical Engineering, West Anhui University, Lu’an 237012, China; 3. Anhui Dabieshan Academy of
    Traditional Chinese Medicine, Lu’an 237012, China
  • Online:2025-10-18 Published:2025-10-14

摘要: 为实现红景天苷绿色高效制备,在前期分子改造获得糖基转移酶高效突变体TW(S129T/F168W)的基础上,构建双酶偶联一锅法催化酪醇合成红景天苷反应体系,对温度、pH、尿苷二磷酸(uridine diphosphate, UDP)、蔗糖、酪醇、金属离子和双酶比例进行优化,在最优条件下进行分批补料反应,实现尿苷二磷酸葡萄糖(uridine diphosphate-glucose, UDPG)的循环再生,提高红景天苷产量。结果表明:双酶偶联催化酪醇合成红景天苷最佳条件为温度35 ℃,pH 8.0,UDP浓度0.5 mmol/L,蔗糖浓度1 mol/L,酪醇浓度5 mmol/L,Ca2+浓度5 mmol/L,突变体TW∶AtSuSy的酶活比0.5∶6;在10 mL反应体系中通过分批补料策略获得10.3 g/L的红景天苷。结合分子对接探究突变体催化酪醇合成红景天苷分子机制,为绿色高效制备红景天苷奠定基础。

关键词: 糖基转移酶, 红景天苷, 双酶偶联, UDPG再生, 分批补料

Abstract: Previously, the glycosyltransferase mutant TW (S129T/F168W) was obtained to improve the production of salidroside. In this research, a cascade reaction comprising glycosyltransferase mutant TW and sucrose synthaseAtSuSy for salidroside synthesis was constructed. The cascade reaction conditions including temperature, pH, uridine diphosphate (UDP), sucrose, tyrosol, metal ions and two-enzyme ratio were optimized. Furthermore, the fed-batch cascade reaction was carried out under the optimal conditions to achieve the regeneration of uridine diphosphate-glucose (UDPG) and promote salidroside synthesis. Optimal conditions for salidroside synthesis were determined as: temperature of 35 ℃, pH 8.0, UDP concentration of 0.5 mmol/L, sucrose concentration of 1 mol/L, tyrosol concentration of 5 mmol/L, Ca2+ concentration of 5 mmol/L, and TW∶AtSuSy enzyme activity ratio of 0.5∶6. In a 10 mL reaction system, the yield of salidroside reached 10.3 g/L by cascade reaction using fed-batch strategy. Moreover, the possible molecular mechanism responsible for salidroside synthesis was also investigated by molecular docking, demonstrating that effective hydrogen bonds contributed to the efficient synthesis of salidroside. This study establishes a foundation for efficient salidroside preparation in industrial application in the future.

Key words: glycosyltransferase, salidroside, two-enzyme coupling, UDPG regeneration, fed-batch

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