The major functions of Exopolysaccharide (EPS) include, preventing bacterial cells from desiccating and biofilm production to increase the colonization of bacterial cells. In the current study, a bacterial strain was isolated to produce EPS. Phylogenetic analysis of the isolated strain indicated it was related to Bacillus subtilis. The bacterium showed the ability to produce a new EPS using very cheap date seeds as a carbon source. Different conditions were studied to enhance exopolysaccharide production. Maximum total sugars (exopolysaccharide) were reached to 0.87 mM) at 20 g/lAjwadates seed (ADS). The maximum production was found to be 3.46 mM by addition of peptone as the main source of nitrogen with a concentration of 1.5 g/L. The optimal parameter values were temperature 37 °C, pH 6, incubation time 72 h and inoculum concentration 1 mL. The crude exopolysaccharide was purified by removing the cells, then the protein, then dialysis and finally ethanol precipitation of the exopolysaccharide. This method modification increased exopolysaccharide production to 0.6 g/L. The exopolysaccharide produced showed antitumor activity against Erlich tumor cells. It is promising for application on a large scale for different types of cancer cell lines.
Keywords: Ajwa date seeds; Antitumor; Bacillus subtilis; Exopolysaccharides; Purification.
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