Author:
Nawaz Maliha,Zafar S.,Khan Shervani Sameen,Ray Sidra,Buneen Ummul,Rubab Arzoo,Kanwal Maria,e-Arsh Qandeel-,Khurram M. Faizan,Naeem Sajid Syed
Abstract
ABSTRACT: Cellulose is the richest plant biomass on earth and is an unbranched polymer composed of D-glucose residues joined by β-1, 4-D-glycosidic bonds. The utmost abundant carbohydrates in nature are considered to be cellulases and hemicellulases. Cellulases are inducible enzymes that catalyze the hydrolysis of a β-1, 4-glycosidic bond to release the glucose units in a cellulose molecule. Thermophilic cellulases are relatively expensive and a very significant industrial enzyme. In this study, the recombinant plasmid pET22b (+) containing the cellulase encoding gene was transformed in E.coli BL21 codon plus. A Shake flask fermentation study was performed using modified M9NG media. Lactose and IPTG were used as an inducer. After SDS-PAGE analysis, the predicted molecular weight of a protein was 62kDA Batch culture fermentation was performed using LB and modified M9NG media. Lactose was used as the cheapest inducer. Under optimized fermentation conditions, the enzyme displayed maximum activity at 37oC and pH 7. The specific activity of the enzyme was 70U/ml. The production of the recombinant enzyme was enhanced approximately 6 times in E.coli BL21 as compared to wild type strain. The expression level of the recombinant cellulase was round about 30%-40%. Molecular cloning of the cellulase encoding genes resulted in the maximum production of the cheapest enzymes that can be used for industrial purposes.
Publisher
Oriental Scientific Publishing Company
Subject
Drug Discovery,Agronomy and Crop Science,Biotechnology
Cited by
2 articles.
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