Structure prediction, docking studies and molecular cloning of novel Pichia kudriavzevii YK46 metalloprotease (MetPr) for improvement of feather waste biodegradation

This study addresses the environmental risks associated with the accumulation of keratin waste from poultry, which is resistant to conventional protein degradation methods. To tackle this issue, microbial keratinases have emerged as promising tools for transforming resilient keratin materials into v...

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Bibliographic Details
Published in:Scientific reports 2023-11, Vol.13 (1), p.19989-19989, Article 19989
Main Authors: Abd El-Aziz, Nagwa M., Khalil, Bigad E., El-Gamal, Nora N.
Format: Article
Language:English
Subjects:
631/208
631/326
631/61
Amino acids
Biodegradation
Biotransformation
Cloning
E coli
Environmental risk
Humanities and Social Sciences
Keratin
Keratinase
Metalloproteinase
multidisciplinary
Pichia kudriavzevii
Protein structure
Proteins
Science
Science (multidisciplinary)
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Summary:This study addresses the environmental risks associated with the accumulation of keratin waste from poultry, which is resistant to conventional protein degradation methods. To tackle this issue, microbial keratinases have emerged as promising tools for transforming resilient keratin materials into valuable products. We focus on the Metalloprotease ( MetPr ) gene isolated from novel Pichia kudriavzevii YK46, sequenced, and deposited in the NCBI GenBank database with the accession number OQ511281. The MetPr gene encodes a protein consisting of 557 amino acids and demonstrates a keratinase activity of 164.04 U/ml. The 3D structure of the protein was validated using Ramachandran's plot, revealing that 93% and 97.26% of the 557 residues were situated within the most favoured region for the MetPr proteins of template Pichia kudriavzevii strain 129 and Pichia kudriavzevii YK46, respectively. Computational analyses were employed to determine the binding affinities between the deduced protein and beta keratin. Molecular docking studies elucidated the optimal binding affinities between the metalloprotease ( MetPr ) and beta-keratin, yielding values of − 260.75 kcal/mol and − 257.02 kcal/mol for the template strains Pichia kudriavzevii strain 129 and Pichia kudriavzevii YK46, respectively. Subsequent molecular cloning and expression of the MetPr gene in E. coli DH5α led to a significantly higher keratinase activity of 281 ± 12.34 U/ml. These findings provide valuable insights into the potential of the MetPr gene and its encoded protein for keratin waste biotransformation, with implications for addressing environmental concerns related to keratinous waste accumulation.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-47179-5