|Jania rubens-associated bacteria: molecular identification and antimicrobial activity|Ismail-Ben Ali, A.; El Bour, M.; Ktari, L.; Bolhuis, H.; Ahmed, M.; Boudabbous, A.; Stal, L. (2012). Jania rubens-associated bacteria: molecular identification and antimicrobial activity. J. Appl. Phycol. 24(3): 525-534. dx.doi.org/10.1007/s10811-011-9758-0
In: Journal of Applied Phycology. Springer: Dordrecht. ISSN 0921-8971; e-ISSN 1573-5176, meer
Antibacterial and antifungal activities; Bacteria; Seaweed epibionts;Rhodophyta
|Auteurs|| || Top |
- Ismail-Ben Ali, A.
- El Bour, M.
- Ktari, L.
- Bolhuis, H., meer
- Ahmed, M.
- Boudabbous, A.
- Stal, L., meer
Marine macroalgae surfaces constitute suitable substrata for bacterial colonization which are known to produce bioactive compounds. Thus, hereby we focused on heterotrophic aerobic bacteria species associated with coralline red alga (northern coast of Tunisia, southern Mediterranean Sea) and their inhibition against several microbial marine and terrestrial species. The whole collection (19 isolates, J1 to J19) was identified, based on their 16S ribosomal RNA gene sequences as Proteobacteria (14 strains), Bacteroidetes (4 strains) and Firmicutes (1 strain). Thirty-six percent of the isolates (J2, J9, J11, J13, J16, J17 and J18) were antibiotic-like producers with in vitro inhibition against Gram + and Gram - bacteria and the yeast . Highest level of inhibition was revealed for the isolates J2, J9 and J13 identified respectively as , and , with strong activity against , and , with inhibition diameters of 25 to 35 mm shown by drop test assay on T soy agar plates. Furthermore, we tested inhibition of crude organic extracts against human and marine bacteria as well as against all isolates, in order to determine the degree of affinity of the epibionts to their proper host. The recovery of strains with antimicrobial activity suggests that represent an ecological niche which harbors a specific microbial diversity worthy of further secondary metabolites investigation.