Two-step sequential optimization for production of ionic liquid stable cellulase from Bacillus subtilis I-2

Abstract

The cost-effective bulk production of cellulases with desirable characteristics e.g., ionic liquid (IL)-stability, thermal, and pH stability is highly desirable. This study reports the optimization of cultural and environmental variables for enhanced production of an IL-stable, broad pH range, and thermo-stable cellulase from Bacillus subtilis I-2 employing low-cost agro-industrial wastes. Furthermore, combined interactive effects of different variables on enzyme yield were investigated using response surface methodology. The optimal levels of carbon and nitrogen sources were determined (% w/v, wheat bran 2.0, potato peel 1.5, cotton seed cake 0.8, and soybean meal 0.8) for enhanced cellulase yield. Further, optimization of environmental variables (temperature 48.41 °C, pH 7.0, and agitation rate 180 rpm) lead to overall 4.1-fold (76– 315.90 U/ml) enhancement of cellulase yield.