Scientific poster

Biofunctionalized Biosilk microfibers

Learn how recombinant Biosilk protein can form stable 3D microfiber networks that support tissue-specific cell organization and growth. When combined with full-length Biolaminin proteins, these networks create defined microenvironments that help cells attach, survive, and mature in ways that reflect their natural niche. The fibrous structure supports free diffusion of nutrients and patterning factors, which helps cells self-organize and develop long-term, specialized functions.

What’s inside

How recombinant Biosilk forms elastic, ECM-like microfibers suitable for long-term 3D cultures
How Biolaminin proteins can be added to guide tissue-specific cell behavior
Improved viability, reduced stress, and better differentiation of hMSCs, midbrain organoids, ovarioids, and cancer models
Functional outcomes including stable organoid growth, preserved cellular composition, and reliable dose-response behavior
Applications for disease modeling, organoid development, and advanced 3D systems using a defined, animal-origin free setup