High-yield soluble production of recombinant β-keratin from Gallus gallus feathers using an experimental design approach.

The search for new non-animal textile materials has increased yearly as environmental awareness and veganism continue to spread, driving the development of greener fabrics. Concurrently, β-keratin, a fibrous, resistant, and insoluble protein shows great potential for producing innovative biomaterials. However, β-keratin is naturally abundant in animal feathers. Therefore, the recombinant production of β-keratin from Gallus gallus feathers was proposed using a strategy of parallel expression in different vectors. Statistical tools of experimental design were employed to improve the production of soluble biosynthetic keratin. It was shown that β-keratins fused to HisMBP had better performance regarding soluble expression. In addition, the optimized regions for the values of induction temperature, induction time, and induction absorbance were obtained. As a result, a yield of 185.3 ± 1.4mg/L of soluble HisMBP-Chr2.FK4 was achieved, representing the highest yield reported to date.