p-SE17®

p-SE17®

• Combines elastin and silk demonstrates high solubility in water buffers and provides flexibility of final product.
• Significantly improves biomaterial rheological and mechanical properties, particularly elasticity.
• The domain combinations of RGD and ZIP ensure structural stability, creating a favorable microenvironment for seeded cells.
• Having the potential to remodel polymeric biomaterials, it enables high-resolution 3D bioprinting of spatially complex structures.
• Innovative p-SE17® produced in a cost-effective prokaryotic expression system without detergents or surfactants, making them an ideal addition to bioinks or a better alternative to components used to manufacture bioinks.
•  p-SE17® create a favorable microenvironment, promoting cell colonization, migration, proliferation, and growth stimulation.We invite you to Explorer our scientific publication:

  Cecuda-Adamczewska, V.; Romanik-Chruścielewska, A.; Kosowska, K.; Sokołowska, I.; Łukasiewicz, N.; Korycka, P.; Florys-Jankowska, K.; Zakrzewska, A.; Wszoła, M.; Klak, M. Elasticity Modification of Biomaterials Used in 3D Printing with an Elastin–Silk-like Recombinant Protein. J. Funct. Biomater. 2024, 15, 141. https://doi.org/10.3390/jfb15060141