Abstract
Alkaline protease or peptidases are the largest groups of enzymes in the biological industry with a variety of application in manufacturing units used in the process of substrate stabilization, dehairing, diagnosis, extraction, food production, destaining, etc., where the pH of the environmental conditions remain above neutral pH. Because of these wider applications of alkaline proteases in industries, their demand is increasing to compete with their chemical counterpart. An alkaline tolerant bacterial strain Bacillus clausii wasisolated from fish waste and used for mass production of alkaline protease using fish waste homogenate as media. Preliminary study on optimization of conditions for the mass production carried out. The optimum temperature for production ranges between 25°C and 35°C and pH determined as 9. The mass production of extracellular alkaline protease carried out using mobilized and immobilized cells of B. clausii at optimized condition using production media, the mixture of production media and fish waste homogenate and in nutrient broth. The recorded results showed that the maximum enzyme production obtained with immobilized cells in nutrient broth media and followed by fish waste homogenate media of 8900 U/ml and 8600 U/ml. Purification protease enzyme yielded 0.35 g/ml from the production media . Bloodstained cloth treated with immobilized enzyme removed the stain completely compared to treatment with non-immobilized enzyme and commercially used detergent. So, the current study suggests the usage of microbial alkaline protease in household detergents to replace the usage of synthetic detergents and save the environment from chemical pollutants.
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