我的账户 7×24小时客服热线:400-829-7929 语言:
热门产品: 人参皂苷Rh2,人参皂苷Rg3,胡萝卜苷, 木犀草苷
产品分类
在线咨询
联系电话:
销售:
400-829-7929(7*24小时)
028-82633860
028-82633397 
028-
82633165
技术服务和产品定制:
028-82633987
在线服务:  
沈帅 
文静  点击这里给我发消息
贺丹丹  
点击这里给我发消息
      
文献信息

Enrichment of rosmarinic acid from comfrey (Symphytum officinale L.) root extract by macroporous adsorption resins and molecular docking studies

期刊名:Industrial Crops and Products
文献编号:
文献地址: https://www.sciencedirect.com/science/article/abs/pii/S0926669024005181
发表日期:August 2024
The rosmarinic acid (RA) is known as the major phenolic compound in comfrey roots possessing notable biological properties. This study aimed to enhance the polyphenol content of the comfrey root extract through the use of six different types of macroporous resins chromatography including DM-130, LXA-88, LSD-001, LXA-10, HP-20, and LXA-17. The LSD-001 demonstrated the highest separation efficiency, resulting in a 7-fold increase of RA content from 11.44 mg.g−1 in the extract to 75.79 mg.g−1 for the desorbed extract, as confirmed by HPLC analysis. In optimization of the static adsorption, 40 min contanct time, 11.8 g resin dosage, and 10000 µg mL−1 extract concentration were attained for maximum amount of adsorption capacity and ratio. Also in desorption process the minmum time for maximum recovery was 7 min with 60 mL eluent volume. The isotherm and kinetic studies of RA adsorption on LSD-001 resin showed reasonable agreement with Langmuir suggesting monolayer adsorption machenism, and the pseudo-second-order models (R2=0.98). Morover, the enriched extract containg the highest amount of RA showed an antioxidant activity of almost 3.5 times more than the comfrey root extract. Molecular modeling revealed stacking interactions and hydrogen bonding between the polar sites of RA and the benzene ring of LSD-001 resin. Furthermore, molecular docking of the ligand with the polymer yielded a docking score of −5.75 kcal.mol−1 revealed the incorporation of RA and polymeric structure of LSD-001 ion exchange resin.
相关产品