Preliminary study on Salvia miltiorrhiza bung endophytic fungus
- Author:
Xi-Ying WEI
1
Author Information
1. College of Life Sciences
- Publication Type:Journal Article
- Keywords:
Antimicrobial activity;
Endophytic fungus;
Salvia miltiorrhiza bung;
Tanshinone II A
- From:Academic Journal of Xi'an Jiaotong University
2010;22(4):241-246
- CountryChina
- Language:Chinese
-
Abstract:
Objective: To select the strains which can produce tanshinone II A like its host plant Salvia miltiorrhiza bung. Methods: A total of 50 strains of endophytic fungi were isolated from healthy, living and symptomless tissues of Salvia miltiorrhiza bung, among which 29 strains were obtained from the root, 14 from the stem, 3 from the leaf, 3 from the flower and 1 from the seed. Their antimicrobial activities against nine different bacteria, including both Gram-negative and Gram-positive bacteria, were measured by Oxford plate agar diffusion bioassay. Results: Our data showed that all but four strains had significant antibacterial activities on at least one indicator bacterium to some extent, and five strains (DR1, DR4, DR16, DR18 and DF2) manifested quite prominent antibacterial activities against certain pathogenic bacteria. In some degree, it might indicate that this endophytic fungus isolated from the tissues of Salvia miltiorrhiza bung has a potential value as a natural antibacterial medicine as well. Thin layer chromatography (TLC) and high-performance liquid chromatography (HPLC) were carried out to test selected strains, both inside and outside of the cell to see if any strain can produce tanshinone II A. The result showed that extracts from three strains, labeled as DR12 (outside cell), DR21 (inside cell) and DF3 (inside cell), had a component with the same Rf value in TLC assay as that of authentic tanshinone II A. The extract from DR12 (outside cell) and DR21 (inside cell) had a peak at retention time identical to that of authentic tanshinone II A in HPLC. Conclusion: The fungi appear to produce the bioactive compound tanshinone II A, and they could be used to produce tanshinone II A by fermentation. It provides a new way to synthesize this natural medicine.