Determination of Keratinase Activity using Chicken Feather DMSO extract and its optimization with Response Surface Methodology

Department of Chemistry, Faculty of Mathematics and Natural Science, State University of Malang

^* Corresponding author: This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract

Keratinase is an enzyme capable of degrading keratin, exhibiting two activities: protease activity, which cleaves peptide bonds, and disulfide reductase activity, which reduces disulfide bonds (-S-S-). However, keratinase activity is often measured using casein as a substrate, even though casein lacks disulfide bonds and is therefore less suitable. The limited availability of effective keratin substrates highlights the need to develop a more appropriate alternative. This study aimed to extract keratin from chicken feathers, characterize the extract—focusing on peptide and disulfide bonds—and evaluate its effectiveness as a keratinase substrate using keratinase produced by Bacillus sp. MD24. The research was conducted in three stages: (1) extraction of keratin from chicken feathers, (2) production of keratinase, and (3) evaluation and optimization of chicken feather keratin as a substrate using Plackett-Burman Design (PBD) and Central Composite Design–Response Surface Methodology (CCD-RSM). Keratin was extracted with DMSO, and ATR-FTIR and EDX analyses confirmed the presence of characteristic functional groups (–C–O, –N–H, –C–N, –C– H, – C–S, –S–H, and –S–S), indicating successful extraction. Keratinase production was optimized using the One-Factor-at-a-Time (OFAT) method, with optimal conditions identified at a temperature of 37°C and pH 8. Keratinase activity was then tested with casein, chicken feather keratin, and azure keratin. CCD-RSM analysis predicted the following optimal conditions: 56.64 °C and pH 8.02 for casein, 63.07 °C and pH 8.14 for chicken feather keratin, and 53.07 °C and pH 7.97 for azure keratin. Although additional data are needed in PBD to address the lack of fit and in CCD-RSM to evaluate the significance of temperature and pH interactions, the findings demonstrate that keratin extracted from chicken feathers can serve as a viable substrate for keratinase activity assays.