International Journal of Pharma and Bio Sciences
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10.22376/ijpbs.2019.10.1.p1-12
Volume 7 Issue 1
2016 (January - March)
STATISTICAL OPTIMIZATION OF MEDIA COMPONENTS FOR THE ENHANCED Β-XYLANASE AND Β-MANNANASE PRODUCTION FROM ASPERGILLUS NIGER C-5 VIA SOLID STATE FERMENTATION OF WHEAT BRAN
Hemicellulases are the key enzymes in the production of alternative fuels and chemicals from lignocellulosic biomass. The present study dealt with the statistical optimization of various fermentation parameters for enhancing the yields of β-xylanase and β-mannanase from lessThan i greaterThan Aspergillus niger lessThan /i greaterThan C-5 using wheat bran based basal media. Plackett-Burman was first employed to screen out the important process parameters that have significant effect on the production of enzymes. Out of 23 variables screened, four variables including tryptone, SDS, NH lessThan sub greaterThan 4 lessThan /sub greaterThan Cl, NaCl were selected to further study the interactive effects and optimum level of these variables in central composite design of response surface methodology. This combinatorial statistical approach led to the fine tuning of productivities revealing 5200 and 200 IU/g of β-xylanase and β-mannanase yields respectively. Hence, this two step optimization approach led to 3.72 and 2.08 fold increase in the activities of enzymes as compared to under unoptimized conditions.
CHETNA JANVEJA, SUSHEEL SINGH RANA AND SANJEEV KUMAR SONI
Solid State Fermentation (SSF), Plackett-Burman Design (PBD), Response Surface Methodology
(RSM), Aspergillus niger C-5, Wheat bran
89-102