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ARTICLE; AGRICULTURE AND ENVIRONMENTAL BIOTECHNOLOGY Bacillus safensis LAU 13: a new source of keratinase and its multi-functional biocatalytic applications
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TLDR
The obtained results showed an improvement in the properties of the mutant strain for use of the micro-organism or its enzyme as biocatalysts and high substrate specificity for feathers, but low specificity for human and bovine hairs.Abstract:
A newly isolated bacterium identified as Bacillus safensis based on biochemical tests and 16S rRNA analysis and its mutant variant created by exposure to ultraviolet radiation at 254 nm were investigated for keratinolytic activity. The wild-type strain produced 35.450.4 U/mL keratinase over a period of 120 h, while the mutant one yielded 64.4108.5 U/mL keratinase for the same period of 120 h. The optimal conditions for the enzyme activities were pH 7.5 and 40 C. The mutant and wild-type strain keratinases retained 59% and 54% of their activity after 12 h pretreatment at 40 C, and 64% and 60% of their activity after 12 h at pH 7.5, respectively. The keratinases showed high substrate specificity for feathers, but low specificity for human and bovine hairs. The enzymes were activated by Na C ,C a 2C ,F e 2C and Mg 2C . However, while Mn 2C activated the enzyme from the mutant strain, it inhibited that of the wild type. The mutant and wild-type strain completely degraded whole chicken feathers after 6 and 9 days at 30 § 2 C, and also completely dehaired goat skin within 12 and 16 h, respectively, without damage to the skin. Similarly, remarkable destaining of blood-stained cloth occurred within 23 h. The obtained results showed an improvement in the properties of the mutant strain for use of the microorganism or its enzyme as biocatalysts.read more
Citations
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Valorization of keratin waste biomass and its potential applications
Chilakamarry Chaitanya Reddy,Irshad Ahamad Khilji,Arun Gupta,Prakash Bhuyar,Syed Mahmood,Khater Ahmed Saeed AL-Japairai,Gek Kee Chua +6 more
TL;DR: In this paper, the significance of keratin with potential applications and aid in the advancement of several environmentally sound bioproducts are described, including various keratin utilisation methods with its applications.
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Microbial keratinases: An overview of biochemical characterization and its eco-friendly approach for industrial applications
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Sustainable production, biochemical and molecular characterization of thermo-and-solvent stable alkaline serine keratinase from novel Bacillus pumilus AR57 for promising poultry solid waste management.
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TL;DR: The biochemical characterization reveals astounding results which makes the B. pumilus AR57 keratinase as a novel and unique protease a potential candidate for the future application in eco-friendly bioconversion of poultry waste and the keratin enzyme could play a pivotal role in the detergent industry.
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Immobilization of keratinase on chitosan grafted-β-cyclodextrin for the improvement of the enzyme properties and application of free keratinase in the textile industry
TL;DR: In the preliminary experiments it was found that free keratinase have the potential to improve the quality of woollen fabrics and suitable for application in textile industries.
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Structural characterization, catalytic, kinetic and thermodynamic properties of Keratinase from Bacillus pumilus FH9.
TL;DR: The pure B. pumilus FH9 keratinase was able to hydrolyze different substrates showing its higher proteolytic activity on casein, bovine serum albumin, and collagen, followed by feather, horn and wool.
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TL;DR: Keratinases stand out among proteases since they attack the keratin residues and hence find application in developing cost-effective feather by-products for feed and fertilizers and their prospective application in the challenging field of prion degradation would revolutionize the protease world in the near future.
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TL;DR: A feather-degrading culture was enriched with isolates from a poultry waste digestor and adapted to grow with feathers as its primary source of carbon, sulfur, and energy, indicating a potential biotechnique for degradation and utilization of feather keratin.
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Bacterial Keratinases: Useful Enzymes for Bioprocessing Agroindustrial Wastes and Beyond
TL;DR: The use of keratinases to enhance drug delivery in some tissues and hydrolysis of prion proteins arise as novel outstanding applications for these enzymes.