The Morphology and Biochemical Structure of Spider Egg Cases: Potential Arachnid- based Silk Nanosealants in Medicine
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Description
The egg cases of spiders are commonly multilayered, complex structures that contain several silk fibers. This study uses optical and polarized microscopy, scanning electron microscopy, and infrared spectroscopy to compare the morphology and secondary protein structure of egg case silk of two orb-web spider species (A. aurantia and A. trifascita), two cobweb species (L. hesperus and L. geometricus), and one nursery web species (D. okefinokensis). A common feature of all six spiders' egg cases was a more dense and rigid outer layer, which was typically comprised of both tubiliform and aciniform silk fibers, along with a less dense inner layer of pure tubiliform silk. Infrared spectroscopy revealed that tubiliform silk from all egg cases contain a significant proportion (30-50%) of beta-sheet nanocrystalline aligned regions that are embedded in an amorphous random coil matrix, which does not change appreciably with hydration. While the native as-spun aciniform silk fibers primarily incorporated into the outer shell layer of egg cases are observed to be dominated by alpha-helical and random coil secondary structures, where the alpha-helical component undergoes a partial hydration-induced conversion to beta-sheet. Akin to egg case silk’s biochemical structure, its potential uses encompass a wide variety of industries, especially medicine. Synthetic materials have served in roles where silk often caters best to with its high mechanical/chemical robustness and biocompatability while also ushering in novel treatment avenues. An arachnid-based film hybridized with a photothermal converter nanoparticle such as copper salt or silver nanoprisms, which serve to weld the suture to the dermal tissue, is a promising strategy in the goal of ever improving patient outcomes.These two studies in parallel, one of a fundamental focus and one of an applied outlook, seek to understand and exploit the properties of spider silk in order to advance our knowledge of this amazing material and harness its potential for a wide range of practical applications.