Keratinases are valuable enzymes for converting feather keratin waste into bioactive products but often suffer from poor substrate specificity and low catalytic efficiency. This study reported the creating of a novel keratinase with targeted adherence and specific degradation on feather keratins by fusing prepeptidase C-Terminal (PPC) domain. A PPC domain of metalloprotease E423 specifically adsorbed feather keratins by hydrogen bonds and hydrophobic interactions in a time- and temperature-dependent manner. Stepwise N-/C-terminal truncations disclosed the essential core sequence composed of 21 amino acid residues determining the keratin-targeted adherence. Fusion of the core fragment with a flexible linker (GGGGS)1 achieved the optimal secretion, and improved the catalytic efficiency of a representative keratinase 4-3Ker-MAV by 0.97-fold. Moreover, the feather degradation rate increased from 65 to 82%, representing the highest reported performance for a keratinase. This PPC-fusion strategy opens new horizons in enzyme engineering, promising not only to revolutionize keratin waste valorization but also to inspire the design of substrate-specific biocatalysts across diverse industrial applications.
Keywords: feather keratin; keratinases; prepeptidase C-terminal; substrate-binding domain.