Isolation and structural characterization of exopolysaccharide from marine Bacillus sp. and its optimization by Microbioreactor

In the present study, a cost-effective, robust Microbioreactor based production optimization of levan like exopolysaccharide from marine Bacillus sp. SGD-03 was analysed. FE-SEM analysis has showed the significant fibrillar structure of EPS. Size exclusion chromatography and other analytical data revealed that, produced EPS has a molecular weight of 1.0 × 104 Da and is composed of fructose monosaccharide with hydroxyl, carbonyl, and ether groups. The backbone structure of EPS has a branching pattern of β-(2,6) linkages which confirms the similarity with available levan like polymers. The cost-effective media composition for levan production was demonstrated. The maximum yield of crude levan obtained was 123.9 g/L by response surface methodology using robust BioLector Pro Microbioreactor, and same has been validated with shake flask, 1 L and 10 L pilot-scale fermentation. Demonstration of cost-effective media composition to enhance EPS production by high throughput based Microbioreactor approach. The maximum yield of EPS obtained by a BioLector Pro has been compared and validated with shake flask, 1.0 L and 10.0 L pilot scale fermentation. [Display omitted]