Abstract
Exopolysaccharides (EPS) of fungal origin have attracted special attention from researchers due to their multifarious applications in the food and pharmaceutical industries. In the present study, optimization of the process parameters for the production of exopolysaccharide by Schizophyllum commune AGMJ-1 was studied using one factor at a time (OFAT) method, Plackett–Burman design (PBD) and response surface methodology (RSM). OFAT method revealed xylose and yeast extract to be the most effective carbon and nitrogen sources and pH 5.3 as an optimum for maximum EPS production. Xylose, yeast extract and KCl were screened as statistically significant variables for EPS production using PBD. RSM based on the central composite design estimated that maximum EPS (4.26 g L−1), mycelial biomass (14 g L−1) and specific yield (0.45 g g−1) were obtained when concentration of xylose, yeast extract and KCl were set at 2.5 g % (w/v), 0.83 g % (w/v) and 6.53 mg % (w/v), respectively, in the production medium.
Highlights
The increased demand of natural polymers for various industrial applications in recent years has led to a renewed interest in exopolysaccharide production by microorganisms
We examined the effect of initial pH on the production of EPS and mycelial biomass
Schizophyllum commune AGMJ-1 is known to be a potential producer of secondary metabolites
Summary
The increased demand of natural polymers for various industrial applications in recent years has led to a renewed interest in exopolysaccharide production by microorganisms. Many microorganisms have an ability to produce exopolysaccharide extracellularly either as soluble or insoluble polymers. The exopolysaccharide consist of large variety of complex chemical structures, physiological functions and wide range of potential applications in various industrial areas as food engineering, biodegradable plastics, agronomy, pharmaceuticals, fuels and others. These polymers are renewable resources that offer real and potential uses for humankind. The compounds of fungal origin have attracted special attentions from researchers due to their various pharmacological and biological
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