Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, Nanjing Forestry University, Nanjing 210037, China.
College of Chemical Engineering, Nanjing Forestry University, Nanjing 210037, China.
J Agric Food Chem. 2024 Aug 28;72(34):19093-19106. doi: 10.1021/acs.jafc.4c04444. Epub 2024 Aug 19.
Luteolin-7--glucoside(L7G), a glycosylation product of luteolin, is present in a variety of foods, vegetables, and medicinal herbs and is commonly used in dietary supplements due to its health benefits. Meanwhile, luteolin-7--glucoside is an indicator component for the quality control of honeysuckle in the pharmacopoeia. However, its low content in plants has hindered its use in animal pharmacological studies and clinical practice. In this study, a novel 7--glycosyltransferase CmGT from was cloned, which could efficiently convert luteolin into luteolin-7--glucoside under optimal conditions (40 °C and pH 8.5). To further improve the catalytic efficiency of CmGT, a 3D structure of CmGT was constructed, and directed evolution was performed. The mutant CmGT-S16A-T80W was obtained by using alanine scanning and iterative saturation mutagenesis. This mutant exhibited a / value of 772 s·M, which was 3.16-fold of the wild-type enzyme CmGT. Finally, by introducing a soluble tag and UDPG synthesis pathway, the strain BXC was able to convert 1.25 g/L of luteolin into 1.91 g/L of luteolin-7--glucoside under optimal conditions, achieving a molar conversion rate of 96% and a space-time yield of 27.08 mg/L/h. This study provides an efficient method for the biosynthesis of luteolin-7--glucoside, which holds broad application prospects in the food and pharmaceutical industry.
木犀草素-7--葡萄糖苷(L7G)是木犀草素的糖基化产物,存在于多种食物、蔬菜和草药中,由于其健康益处,常被用作膳食补充剂。同时,木犀草素-7--葡萄糖苷是药典中金银花质量控制的指标成分。然而,其在植物中的含量较低,阻碍了它在动物药理学研究和临床实践中的应用。本研究克隆了一种来自 的新型 7--糖基转移酶 CmGT,该酶在最佳条件(40°C 和 pH8.5)下可将木犀草素高效转化为木犀草素-7--葡萄糖苷。为了进一步提高 CmGT 的催化效率,构建了 CmGT 的三维结构,并进行了定向进化。通过丙氨酸扫描和迭代饱和诱变获得了突变体 CmGT-S16A-T80W。该突变体的 / 值为 772 s·M,是野生型酶 CmGT 的 3.16 倍。最后,通过引入可溶性标签和 UDPG 合成途径,菌株 BXC 能够在最佳条件下将 1.25 g/L 的木犀草素转化为 1.91 g/L 的木犀草素-7--葡萄糖苷,摩尔转化率为 96%,时空产率为 27.08 mg/L/h。本研究为木犀草素-7--葡萄糖苷的生物合成提供了一种高效的方法,在食品和制药工业中有广阔的应用前景。
