Whether you are a fan of spiders or terrified of them, you can’t help but admire their ability to make webs. These fascinating and unique structures are incredible feats of engineering that ...

By simulating spider silk in a computational model, the team discovered the stretching process aligns the protein chains ...

By simulating spider silk in a computational model, the team discovered the stretching process aligns the protein chains within the fibers and increases the number of bonds between those chains.

The project was led by Dr. Xiaoli Zhang, the Company’s research manager, whose team continues to push the boundaries of genetic engineering for spider silk production.

Denver, Colorado--(Newsfile Corp. - March 27, 2025) - 247marketnews.com, a pioneer in digital media dedicated to the swift distribution of ...

Spider silk is produced in a special organ with a charming name: the ‘spinneret.’ These are usually found on the spider’s abdomen – towards the rear and on the underside.

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 ...

Kraig Labs successfully engineered the largest known spider silk gene insert into silkworm—nearly doubling the previous record.

When spiders spin their webs, they use their hind legs to pull silk threads from their spinnerets. This pulling action doesn’t just help the spider release the silk, it’s also a crucial step in ...

Understanding how the stretching process strengthens spider silk is a key part of helping design stronger, biodegradable, silk-inspired materials for various applications. When spiders spin their webs ...