spider silk used to detect molecules!!!

At EPFL, fiber optics specialists have discovered some unique qualities of spider silk when it comes to conducting light and reacting to certain substances.

"It's unexpected and extremely promising!" Luc Thévenaz, the professor in charge of EPFL's Group for Fibre Optics, recently experienced a eureka moment in his research. Picking up on an idea proposed by a discussion group of the European Space Agency, he shifted his attention away from traditional fibers made of glass and focused on the silk strands that spiders produce for their webs. These strands are perfectly cylindrical, smooth, transparent and extremely solid – some of the same characteristics as glass-based fibers.

But there is one major difference: while glass is inert, spider silk is made up of very long proteins rolled into a helix structure whose bonds are sensitive to a number of chemical substances.

Reusable chemical sensors

"The helix in the silk strands unwinds whenever polar molecules like acetic acid and ammonia come into contact with its bonds," said Dr. Thévenaz. "This measurably modifies the way the strands conduct light, and it gave us the idea of using them to make chemical sensors."

The researchers discovered another remarkable property, that the change in the helix structure was completely reversible. A sensor using spider silk could thus be used several times over. "We are looking at the possibility of creating silks by adding molecules meant to react with the substances to be tested. That is often impossible with glass fibers, which we have to heat to more than 1,000°C in order to stretch," said the researcher. Also, because silk is biodegradable, it is ideal for sensors that could be implanted in a living body without needing to be removed later on.

 

Spiders at work

At EPFL, doctoral student Desmond Chow and post-doc Kenny Hey Tow are working on natural silk strands with a diameter of 5 microns. They were produced by Australian Nephila edulis spiders grown at the Department of Zoology of the University of Oxford. Synthetic silks exist, but they are expensive and do not work as well as real ones.

The researchers stretch a silk strand taut in a tiny bracket and direct a laser beam at one end of the strand. At the other end, a polarization analyzer is used to measure infinitesimal changes in the light passing through it. If a gas that interacts with the silk strand is present, the device will pick up on this immediately.

This research is still in the early stages, but it is already firing the imagination of the fiber optics specialist. "We have presented it at several conferences, where it was met with significant interest," he said. The study is in the running for research funds. "We are entering a totally new domain that has yet to be explored," said Dr. Thévenaz.

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OOSpider builds giant decoy of itselfOO

 

Hanging out in the jungles of Peru can be a dangerous pastime for a spider - how do you dodge predators while casting your web in the open? A newly spied type of Cyclosa spider has come up with a solution - hide behind a giant, fake version of yourself.

Naturalist Phil Torres describes how he spotted the spider bodyguard while trekking near the Tambopata Research Center in Peru.

"From afar, it appears to be a medium-sized spider about an inch across, possibly dead and dried out, hanging in the centre of a spider web along the side of the trail," he says. "Step in even closer and things start to get weird - that spider form you were looking at is actually made up of tiny bits of leaf, debris and dead insects."

Upon closer examination, Torres spotted a tiny, 5-millimetre spider hiding behind its doppelganger.
Cyclosa mulmeinensis is already known to build decoy objects on its web, but these tend to look like blob-like prey pellets and egg sacs. The newly described decoys look more like a spider, complete with eight dangly legs.

To build their body doubles, the spiders gather leaf fragments, plant parts, prey remains, egg sacs and other handy detritus. Then they arrange the debris along specialised silk strands called stabilimenta to create the shape and legs.

The results of such decoys are counter-intuitive - surely it's like covering yourself in a giant fake steak before parading in front of the local lion pride? But although such decoys tend to attract predators to webs by making them more conspicuous, they may draw away enough attacks from the spider itself to make them worthwhile.

Torres says that some Cyclosaspecies have a higher survival rate against potential predators, such as paper wasps, because the wasps attack the highly visible debris in the web rather than the spider itself.

Torres hopes to collaborate with spider specialists to determine if the arachnid's unique behaviour could indicate the discovery of a new species of Cyclosa.

 NewScientist
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