1·AIM: To explore the chemical changes in compatibility of Radix Bupleuri with Radix Paeoniae Rubra.
前言:目的:研究柴胡和赤芍配伍后的成分变化。
2·Conclusion The total tannin content of wild and cultivated Radix Paeoniae Rubra products were significantly different.
结论赤芍野生品与栽培品的鞣质含量有明显差异。
3·Results Flos Lonicerae Japonicae, Radix Paeoniae Rubra and Radix Astragali could be detected with TLC without any disturbing;
结果薄层鉴别中能检出金银花、赤芍、黄芪,阴性无干扰;
4·Method The total tannin content of wild and cultivated Radix Paeoniae Rubra were determined and compared by spectrophotometry.
方法采用分光光度法测定赤芍野生品和栽培品鞣质含量,并进行比对。
5·Methods: (1) the existed technique of biosensor was well improved to screen the effective component of anti-LPS from Radix Paeoniae Rubra.
方法(1)对已建立的生物传感器技术筛选赤芍中抗lps有效成分的技术平台进行完善与优化。
6·Results: The microscopic identification method and thin-layer chromatography identification of Salvia Miltiorrhiza Bge. and Radix Paeoniae Rubra were established.
结果:建立了显微鉴别方法及丹参、赤芍的薄层色谱鉴别方法。
7·Results For TLC, the chromatogram spots of Radix Astragali, Radix Paeoniae Rubra and Rhizoma Imperatea were well separated and without interference in their negative controls.
结果参白浓缩丸中黄芪、赤芍和白茅根的薄层色谱鉴别斑点清晰,重现性好,无空白干扰;
8·Through biosensor, all kinds of Radix Paeoniae Rubra from different areas were screened. The results showed those from Sichuan province contained the largest quantity of active components of anti-LPS.
利用生物传感器技术完成了对不同产地赤芍拮抗LPS活性的筛选,确定出产地为四川的赤芍片剂中拮抗LPS活性成分的含量最高。