Efficient Mining and Characterization of Two Novel Keratinases from Metagenomic Database
Jue Zhang, Guangxin Xu, Zhiwei Yi, Xixiang Tang

TL;DR
This paper describes the discovery of two new keratin-degrading enzymes using a metagenomic database and bioinformatics methods.
Contribution
The study introduces an efficient computational and experimental strategy for mining and characterizing novel keratinases.
Findings
Two novel keratinases, ker820 and ker907, were identified and expressed with high keratinolytic activity.
Both enzymes showed optimal activity at high pH and temperature, and effectively degraded feather and cat-hair keratin.
The enzymes exhibited favorable kinetic parameters and thermal stability, making them promising for industrial applications.
Abstract
Keratin is a fibrous structural protein found in various natural materials such as hair, feathers, and nails. Its high stability and cross-linked structure make it resistant to degradation by common proteases, leading to the accumulation of keratinous waste in various industries. In this study, we developed and validated an effective bioinformatics-driven strategy for mining novel keratinase genes from the Esmatlas (ESM Metagenomic Atlas) macrogenomic database. Two candidate genes, ker820 and ker907, were identified through sequence alignment, structural modeling, and phylogenetic analysis, and were subsequently heterologously expressed in Escherichia coli Rosetta (DE3) with the assistance of a solubility-enhancing chaperone system. Both enzymes belong to the Peptidase S8 family. Enzymatic characterization revealed that GST-tagged ker820 and ker907 exhibited strong keratinolytic…
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Taxonomy
TopicsEnzyme Production and Characterization · Dyeing and Modifying Textile Fibers · Enzyme Catalysis and Immobilization
