scholarly journals Novel Sequential Screening and Enhanced Production of Fibrinolytic Enzyme byBacillussp. IND12 Using Response Surface Methodology in Solid-State Fermentation

2017 ◽  
Vol 2017 ◽  
pp. 1-13 ◽  
Author(s):  
Ponnuswamy Vijayaraghavan ◽  
P. Rajendran ◽  
Samuel Gnana Prakash Vincent ◽  
Arumugaperumal Arun ◽  
Naif Abdullah Al-Dhabi ◽  
...  
Keyword(s):  
Response Surface Methodology ◽  
Solid State ◽  
Response Surface ◽  
Solid State Fermentation ◽  
Enzyme Production ◽  
Blood Clot ◽  
Fibrinolytic Enzyme ◽  
Surface Model ◽  
Cow Dung ◽  
Enhanced Production

Fibrinolytic enzymes have wide applications in clinical and waste treatment. Bacterial isolates were screened for fibrinolytic enzyme producing ability by skimmed milk agar plate using bromocresol green dye, fibrin plate method, zymography analysis, and goat blood clot lysis. After these sequential screenings,Bacillussp. IND12 was selected for fibrinolytic enzyme production.Bacillussp. IND12 effectively used cow dung for its growth and enzyme production (687±6.5 U/g substrate). Further, the optimum bioprocess parameters were found out for maximum fibrinolytic enzyme production using cow dung as a low cost substrate under solid-state fermentation. Two-level full-factorial experiments revealed that moisture, pH, sucrose, peptone, and MgSO4were the vital parameters with statistical significance (p<0.001). Three factors (moisture, sucrose, and MgSO4) were further studied through experiments of central composite rotational design and response surface methodology. Enzyme production of optimized medium showed4143±12.31 U/g material, which was more than fourfold the initial enzyme production (978±36.4 U/g). The analysis of variance showed that the developed response surface model was highly significant (p<0.001). The fibrinolytic enzyme digested goat blood clot (100%), chicken skin (83±3.6%), egg white (100%), and bovine serum albumin (29±4.9%).

scholarly journals Comparative Evaluation of Agroindustrial Byproducts for the Production of Alkaline Protease by Wild and Mutant Strains ofBacillus subtilisin Submerged and Solid State Fermentation

2013 ◽  
Vol 2013 ◽  
pp. 1-6 ◽  
Author(s):  
Hamid Mukhtar ◽  
Ikramul Haq
Keyword(s):  
Bacillus Subtilis ◽  
Solid State ◽  
Wheat Bran ◽  
Solid State Fermentation ◽  
Soybean Meal ◽  
Alkaline Protease ◽  
Enzyme Production ◽  
Enhanced Production ◽  
Industrial Byproducts ◽  
Agroindustrial Byproducts

The present study describes the screening of different agroindustrial byproducts for enhanced production of alkaline protease by a wild and EMS induced mutant strain ofBacillus subtilisIH-72EMS8. During submerged fermentation, different agro-industrial byproducts were tested which include defatted seed meals of rape, guar, sunflower, gluten, cotton, soybean, and gram. In addition to these meals, rice bran, wheat bran, and wheat flour were also evaluated for protease production. Of all the byproducts tested, soybean meal at a concentration of 20 g/L gave maximum production of the enzyme, that is, 5.74  ±  0.26 U/mL from wild and 11.28  ±  0.45 U/mL from mutant strain, during submerged fermentation. Different mesh sizes (coarse, medium, and fine) of the soybean meal were also evaluated, and a finely ground soybean meal (fine mesh) was found to be the best. In addition to the defatted seed meals, their alkali extracts were also tested for the production of alkaline protease byBacillus subtilis, but these were proved nonsignificant for enhanced production of the enzyme. The production of the enzyme was also studied in solid state fermentation, and different agro-industrial byproducts were also evaluated for enzyme production. Wheat bran partially replaced with guar meal was found as the best substrate for maximum enzyme production under solid state fermentation conditions.

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