Abstract: Two Bacillus cereus feather-degrading strains (23/1 and 6/2) were transformed using a recombinant plasmid p5.2 carrying the alkaline proteinase gene (aprE). A high level of the aprE gene expression was observed when the recombinant strains were grown on sporulation medium. The expression of the aprE gene proceeded during the early stationary phase and the p5.2 plasmid was segregationally and structurally stable in both strains. The two recombinant strains grown on a mineral medium with 1 % chicken feather as source of energy, carbon and nitrogen exhibited higher proteolytic activity ( approximately 6-fold and 2.4-fold higher for strains 23/1 (p5.2) and 6/2 (p5.2), respectively. Keratinolytic activity increased approximately 3.5-fold and 4.15-fold, respectively. The keratinolytic activity further increased when an optimized medium with yeast extract and corn oil was used. Considerable amounts of free amino acids were obtained after the biodegradation of feather which makes the new strains promising for application in feather-waste treatment to, e.g., transformation to animal feedstuff.
Abstract: A mixed culture containing two recombinant Bacillus subtilis strains; was used to hydrolyze 1% chicken feather; both were previously transformed with late-expressed and early expressed alkaline protease (aprE) carrying plasmids pS1 and p5.2, respectively. Proteolytic and keratinolytic activities of the mixed culture increased in parallel with those of the culture of B. subtilis DB100 (p5.2), and both were higher than that of B. subtilis (pS1) cultures. On the other hand, data indicated that degradation of feather by the recombinant strains B. subtilis DB100 (p5.2), was greatly enhanced when using a previously optimized medium. High levels of free amino groups as well as soluble proteins were also obtained. The concentration of amino acids was considerably increased during the fermentation process. It was found that, the amino acids Phe, Gly and Tyr were the major amino acids liberated in the cultures initiated by both strains. Results render these recombinant strains suitable for application in feather biodegradation large scale processes.
