Spider silk, which has remarkable mechanical properties, is a natural protein fiber produced by spiders. Spiders cannot be farmed because of their cannibalistic and territorial nature. Hence, large amounts of spider silk cannot be produced from spiders. Genetic engineering is an alternative approach to produce large quantities of spider silk. Our group has produced synthetic spider silk proteins in E. coli to study structure/function and to produce biomaterials comparable to the silks produced by orb-weaving spiders. Here we give a detailed description of our cloning, expression, and purification methods of synthetic spider silk proteins ranging from ~30 to ~200 kDa. We have cloned the relevant genes of the spider Nephila clavipes and introduced them into bacteria to produce synthetic spider silk proteins using small and large-scale bioreactors. We have optimized the fermentation process, and we have developed protein purification methods as well. The purified proteins are spun into fibers and are used to make alternative materials like films and adhesives with various possible commercial applications.
Keywords: Antibiotic pressure; Bioreactor; High-density culture; Metabolic engineering; Repetitive protein; Synthetic spider silk.
Copyright © 2021 Elsevier Inc. All rights reserved.