Polyelectrolyte Fiber Assembly of Plant-Derived Spider Silk-like Proteins.

Spider dragline silk is a proteinaceous material that combines superior toughness and biocompatibility, which makes it a promising biomaterial. The distinct protein structure and the fiber formation process contribute to the superior toughness of dragline silk. Previously, we have produced recombinant spider silk-like proteins in transgenic tobacco that are readily purified from plant extracts.

Spider silk-like proteins derived from transgenic Nicotiana tabacum.

The high tensile strength and biocompatibility of spider dragline silk makes it a desirable material in many engineering and tissue regeneration applications. Here, we present the feasibility to produce recombinant proteins in transgenic tobacco Nicotiana tabacum with sequences representing spider silk protein building blocks . Recombinant mini-spidroins contain native N- and C-terminal domains of major ampullate spidroin 1 (rMaSp1) or rMaSp2 flanking an abbreviated number (8, 16 or 32) of consensus repeat domains.