Response Surface Methodology (RSM) Approach for Improved Extracellular RNase Production by a Bacillus sp.
DOI:
https://doi.org/10.5530/jam.3.3.3Keywords:
Bacillus sp., Optimization, RNase, Response Surface Methodology, Central Composite Design, Plackett–Burman DesignAbstract
The extracellular ribonuclease activity of Bacillus sp. was successfully improved by optimization of nutritional and physical parameters in a set of non-statistical and statistical experiments. PlackettBurman and Central Composite Design in Response Surface Methodology were used to build statistical models to screen out the significant variables and then study the effect of such variables on ribonuclease production. Four significant variables namely malt extract, yeast extract, ammonium molybdate and fermentation broth pH were selected via 24 -factorial Central Composite Design (CCD) for ribonuclease production Bacillus sp. The optimized values obtained by the statistical analysis showed that malt extract 1. 40 % (w/v), yeast extract 2.12 % (w/v), ammonium molybdate 0.56 % (w/v) and pH 8.81 affected maximum ribonuclease production by Bacillus sp. The ribonuclease production after optimization increased up to 1.83-fold with 83.52 % yield in comparison to the conventional strategy. Analysis of variance (ANOVA) revealed high coefficient of determination (R2 ) of 0.9268 for the respective responses at significant level (p < 0.05).
