Bioproduction of antimicrobial compounds by using marine filamentous cyanobacterium cultivation

Abstract

The synthesis of bioactive compounds with antimicrobial activity, excreted by marine cyanobacteria, strongly depends on their growth conditions. Due to the wide variety of biomolecules which could show properties as growth inhibitors and their low concentrations within the culture medium, the activity of their crude extracts also seems to be related to the extraction method used. Using the marine filamentous cyanobacterium Geitlerinema strain Flo1, we demonstrate a systematic approach for identifying optimal culture conditions to obtain culture media extracts with antimicrobial activity. The changes in the culture conditions, such as the addition of NaBr to the medium, cell immobilisation in vegetable sponge pieces, or temperature, effected the production of these bioactive compounds. The crude extract, containing middle polar molecules, obtained by extraction with Amberlite XAD-1180 had a higher antifouling activity upon a number of bacteria and fungi than the extract obtained by extraction with Amberlite XAD-16. The lowest inhibitory concentration obtained upon Rhodosporidium sphaerocarpum was still ten times higher than that of bis(tributyltin)oxide, but compared to zinc pyrithione, it was two times more active.