Researchers have shed new light on the nature of the adhesive mechanism that snails use to attach themselves onto slippery surfaces.
Researchers have shed new light on the nature of the adhesive mechanism that snails use to attach themselves onto slippery surfaces.
This could lead to developing surgical adhesives that would bind to wet surfaces and be less invasive than suturing mechanisms.This research at Ithaca College, US, follows up on an earlier study that identified the key characteristics controlling this transition from a water-based gel into a powerful yet flexible adhesive.The strength of the natural adhesive comes from the way long, rope-like polymers chemically tie together, or cross link, at certain points," said Andrew Smith, associate professor of biology.
"In our previous studies, we had shown that metals were essential to the formation of cross-links. This is unusual, as some combination of electrostatic and hydrophobic interactions are commonly responsible for the formation of cross-links in other gels," he added. Electrostatic interactions occur when a negatively charged group on one polymer is attracted to a positively charged group on another.
Hydrophobic interactions take place when regions of a olymer don't interact with water, so they stick together to avoid contacting water.
"We used several approaches to break these interactions, and the treatments that normally disrupt them had no impact on the glue's mechanical integrity or ability to set," Smith said. Our study conclusively showed that electrostatic and hydrophobic interactions do not play any detectable role. Removing metals alone caused the glue to fall apart. This was exciting and unexpected," he added.
Removing the metals, however, didn't completely break down the gel.
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For example, zinc, calcium and iron ions can bind very strongly to several molecules at the same time, thereby effectively joining them together. Iron and copper can also catalyze reactions that trigger strong cross-link formation.
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Source-ANI
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