By implanting key spider DNA sequences into the silkworm genome, Kraig Labs has turned one of nature’s most efficient fiber producers into a biological factory for a biodegradable super fiber five ...

DENVER, Oct. 07, 2025 (GLOBE NEWSWIRE) -- 247marketnews.com, a pioneer in digital media dedicated to the swift distribution of financial market news and information, reports that Kraig Biocraft ...

Scientists are rewriting spider DNA to create fibers stronger than steel — strong enough, they believe, to anchor an elevator ...

Jan. 31 -- It may be impossible to craft a silk purse from a sow's ear. But one day, it may be possible to fashion a silk bulletproof vest from, of all things, goat's milk. For decades, scientists ...

“Our team is making continuous refinements to tailor the reeling equipment for spider silk, and we’re already seeing how those adjustments lead to better, more consistent fibers.” Automated reeling ...

Scanning electron microscopy images of fibers from engineered spider silk. To validate their computational findings, the Northwestern team used spectroscopy techniques to examine how the protein ...

In this initial two-site cycle, Kraig Labs successfully managed the logistics, material supply, and independent staffing requirements necessary to support parallel operations. Each facility operated ...

Kraig’s breakthrough turns a biological curiosity into a functional supply chain, as its genetically engineered silkworms are the factory. This means spider silk can finally move from the lab into the ...