Technology Study of Separation and Purification of Active Constituents from Morus alba L
10.6039/j.issn.1001-0408.2015.28.24
- VernacularTitle:桑白皮有效成分分离纯化的工艺研究Δ
- Author:
Degang DONG
;
Xiuying ZHANG
;
Xiaoxue LIU
- Publication Type:Journal Article
- Keywords:
Morus alba L.;
Total flavonids;
Total polysaccharides;
Total alkaloids;
Separation;
Purification
- From:
China Pharmacy
2015;(28):3960-3963
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To optimize the technology of separation and purification of active constituents from Morus alba L. METHODS:With the adsorption rate and desorption rate as the indexes,static and dynamic macroporous resin adsorption-desorp-tion methods were adopted to optimize the type of macroporous resin,the loading amount of fluid,the volume fraction and amount of eluent in the separation and purification technology of total flavonids. With the yield and content of polysaccharide as the index-es,water extraction and alcohol precipitation method was used to optimize the volume fraction of alcohol for polysaccharide precipi-tation in the separation and purification technology of total polysaccharides. With the absorbance of total alkaloids as the index,ion exchange method was employed to optimize the loading amount of fluid and the amount of eluent in the separation and purification technology of total alkaloids. Then the verification was conducted. RESULTS:The optimal technology of total flavonids from Morus alba L. was with D101 macroporous resin as the adsorbent,loading fluid mass concentration of 0.1 g(material medicinal)/ml,loading fluid amount 9 times as the column volume(BV),70% alcohol of 5 BV for elution. The optimal volume fraction of alcohol for polysaccharide precipitation in the technology of total polysaccharides was 80%. The optimal technology of total alka-loids was with loading fluid amount of 3 BV,0.5 mol/L ammonia water of 8 BV for elution. After separation and purification,the purities of total flavonids,total polysaccharides and total alkaloids from Morus alba L. were 35.68%,47.14% and 55.79%,and the RSDs were 1.28%,1.61% and 1.14%(n=3). CONCLUSIONS:The optimal technology is stable and suitable for the separa-tion and purification of active constituents from M. alba L.
