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Bio-plastic Films Production from Feather Waste Degradation by Keratinolytic Bacteria Bacillus cereus

Wafa A. Alshehri, Ashjan F. Khalel, Khaled Elbanna, Iqbal Ahmad, Hussein H. Abulreesh

2021Journal of Pure and Applied Microbiology14 citationsDOIOpen Access PDF

Abstract

Plastic materials have become a necessity of human life especially in the packaging of food commodities and biomedical procedures. Bioplastic is emerging as an effective alternative to fossil oil-based materials to avoid the environmental hazards of the plastic industry. During this study, chicken feathers were used as a substrate to isolate keratin degrading bacteria. Among 14 identified isolates, Bacillus sp BAM3 was found to be the most promising isolate. Partial 16S rDNA analysis-based molecular characterization revealed it is a strain of Bacillus cereus. Bacillus sp BAM3 can grow and produce keratinase in feathers containing basal medium as the sole carbon and energy source. The maximum keratinase production (730U/ml) was achieved within 24 h under optimum reaction conditions. The optimized reaction pH and temperature were noted as 9.0 and 50 °C for crude keratinase activity, respectively. The chicken feathers were used as a substrate in 2, 5, and 10 wt% glycerol to synthesize keratin-based bioplastic with keratinolytic bacterium Bacillus cereus BAM3. Bioplastic prepared from keratin with 2% of glycerol was found to possess good mechanical properties. Therefore, the results present a novel keratinolytic isolate of Bacillus cereus BAM3, which may have potential biotechnological applications in keratin hydrolysis processes. The development of keratin-based bioplastics possessing superior crystalline morphology requires further investigations to substitute fossil oil-based materials.

Topics & Concepts

BioplasticKeratinaseBacillus cereusFood scienceFeatherBiodegradationBacteriaIndustrial microbiologyGlycerolCereusBiologyChemistryMicrobiologyBiochemistryFermentationOrganic chemistryGeneticsEcologyEnzyme Production and CharacterizationMicrobial Metabolism and ApplicationsProtein Hydrolysis and Bioactive Peptides
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