Startup Says It Is First to Copy Spider’s Silk Spinning Process
Spider silk is not only strong, unbelievably elastic, and able to withstand extreme temperature, it is also biodegradable and biocompatible, a fact that’s especially important for medical applications
As territorial and cannibalistic creatures, Spiders have defied our attempts to domesticate them for the purpose of harvesting their silk. But because a strand of spider silk is as much as six times stronger than steel and five times lighter, scientists have long searched for ways to replicate or mimic the production of this natural protein fiber.Ms. Shen said the financial terms of the deal are confidential, adding that Seevix has formed “partnerships with several large companies across many industries.”
For daily updates, subscribe to our newsletter by clicking here.
Trying to imagine all the possible real-world applications of readily produced spider silk can lead to fantastical ideas. It turns out, some scientists calculated a few years ago, that Spider-Man’s famous feat of stopping a runaway subway train with spider webs is not as far-fetched as it seems.
Seevix. Image: PR
In the quest for synthetic spider silk, humans have produced remarkable new materials. But at each milestone, the copycat fiber has had at least one major deficiency. Real spider silk is not only strong, unbelievably elastic, and able to withstand extreme temperature, it is also biodegradable and biocompatible, a fact that’s especially important for medical applications.
Advances in genetic engineering have allowed scientists to produce spider silk proteins using base materials like plants, yeast, or goat milk. But these biopolymers, however close to the original, are just building blocks. The truly hard part is spinning the silk proteins into fibers the way spiders do. Academic and corporate researchers have managed to force the proteins to bind using chemical processes.
A spider silk startup in Jerusalem called Seevix Material Sciences Ltd. says that for all progress made in the field in recent years, it alone has replicated the process of creating spider silk.
Chemical inducement yields degraded fiber, Seevix’s CEO Shlomzion Shen said in an interview with Calcalist. Seevix has developed a way to make the silk proteins “spontaneously self-assemble,” Ms. Shen said. “It is a biomimetic approach in which we copy what nature is doing.”
Ms. Shen declined to provide additional details on the technological innovation citing the need to protect trade secrets. But she said that the breakthrough is the result of 10 years of research conducted at Jerusalem’s Hebrew University by her chief technology officer Shmulik Ittah.
Seevix’s fibers are a tenth of a millimeter long and 100 nanometers in diameter, she said. The dimensions and the properties are “the same as the individual fibers that are bundled together to make spider webs.”
The three-year-old startup is experimenting with different applications, adding the tiny fibers to nylon, rubber and other substances to create new and superior composites.
Heroic slinging from Spider-Man notwithstanding, the most immediate use for Seevix’s synthetic spider silk is in medicine, specifically in tissue engineering and cell growth.
The company’s first commercial product, called SVXgro, can be used as a scaffolding for cells and tissues in the process of regeneration. A company in Japan, Kurabo Industries Ltd., signed an agreement in March to market and sell SVXgro to pharmaceutical firms and research institutions working in this field of medicine.
The product has yet to receive regulatory approval for use in treatment.
- Israel’s Life Sciences Industry Is Dominated by Small Scale Startups
- Jerusalem Officials Are Setting Up a Venture Capital Fund Focused on Biotech
- Biotech Company Struggling to Convince Doctors to Treat Burns with Pineapples
With a price of $300 for one milligram of fiber, Seevix’s proposition is “very profitable,” Ms. Shen said. The startup has raised around $7 million to date, mostly from private investors, according to Ms. Shen.