Impact of beef extract and six carbon source on antifungal metabolites production by bacterium associated with entomopathogenic nematode against Fusarium oxysporum

Abstract

A specific symbiotic Bacillus species isolated from a rhabditid entomopathogenic nematode, Rhabditis (Oscheius) sp., was found to produce a number of bioactive compounds. The present study was conducted to determine the effect of six different carbon sources in combination with beef extract on the production of antifungal substances by Bacillus sp. The yield of crude antimicrobial substances and antimicrobial activity against the test microorganism also differed significantly when the carbon sources in the fermentation media were changed. The highest yield was recorded for fructose plus beef extract (956 mg/l). The antifungal activity was significantly high in beef extract plus maltose (21 ± 1.5 mm) followed by beef extract plus glucose and beef extract plus fructose. Antifungal activity was significantly reduced in beef extract plus lactose and sucrose. High pressure liquid chromatography analysis of the crude antimicrobial substances revealed different peaks with different retention times indicating that they produced different compounds. When a carbon source was not included in the fermentation media, the antifungal production was substantially reduced. Carbon source in the fermentation medium plays a vital role in the production of antimicrobial substances. Beef extract and maltose as nitrogen and carbon sources in the fermentation medium produced maximum antifungal activity. It is concluded that Beef extract and maltose as nitrogen and carbon sources produced maximum activity which can effectively control the Fusarium oxysporum which causes vascular fusarium wilt in tomato, tobacco, legumes, cucurbits, sweet potatoes, banana, etc.