AI Article Synopsis
- Silk-producing animals, like silkworms, use specialized spigots to create silk fibers for various applications.
- The study of the silkworm Bombyx mori reveals that its spigot has a unique triple-ridged design made from proteins, resilin, chitin, and metal ions, which enhances its mechanical properties.
- These insights not only deepen our understanding of natural silk spinning but also inspire the development of new materials that mimic these properties.
Article Abstract
Silk-producing animals use spigots to generate natural silk fibers for various purposes. These natural looms must be able to withstand prolonged silk extrusion. To gain insight into the functional basis of spigots, we report on the structural design of the spigot of the silkworm Bombyx mori. The B. mori spigot exhibits a unique triple-ridged strip surface structure, consisting of cuticle proteins, resilin, chitin, and metal ions (such as K and Ca). This multi-microstructure endows the spigot with superior hierarchical mechanical properties, enabling it to function as a spinning tool for silk formation, thereby influencing the structure and performance of the silk. These findings demonstrate new pathways for achieving specialized functions in confined spaces, providing theoretical support for understanding the natural spinning mechanism and inspiring new directions for developing innovative biomimetic materials.
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| http://dx.doi.org/10.1016/j.ijbiomac.2024.135980 | DOI Listing |
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