Production and characterization of bio-immobilized keratinase in proteolysis and keratinolysis

Extracellular production of keratinase–streptavidin fusion protein (KER–STP) was accomplished by the cloning of Bacillus subtilis with a transforming plasmid carrying the kerA- stp fusion gene. The fusion protein was readily immobilized onto a biotinylated solid matrix by mixing in the culture medium. The properties and reaction kinetics of free and immobilized keratinase (KE) were characterized and compared. Heat stability and pH tolerance were greatly improved by immobilization, but the catalytic efficiency ( k cat/ K m) was reduced by eightfold. The yield of bio-immobilization using bioselective adsorption of the fusion protein was approximately 20%, as estimated from the activity of free KE. HPLC analysis of reaction products demonstrated the hydrolysis of feather keratin, casein, and bovine serum albumin (BSA) by the immobilized KE. The rates of reactions are lower than those of the free enzyme. On the other hand, the stability of the enzyme was greatly improved.