Left: a bloodworm’s fangs; right: Scanning electron microscope image of a single fang Matter/Wonderly et. al.
Small sea creatures called bloodworms can burrow down several metres into the mud of the ocean floor. They have venom-injecting jaws that contain an unusually high level of copper 鈥 and now we know that a simple protein is responsible for these impressive fangs, which could inspire new ways of building materials.
at the University of California, Santa Barbara, and his colleagues have been studying the 2-millimetre-long jaws of this bloodworm (Glycera dibranchiata), which are made up of 10 per cent copper and last for the worm鈥檚 entire five-year lifespan.
鈥淵ou鈥檝e got a little worm that鈥檚 making a jaw that鈥檚 as hard and stiff as bronze, and some ceramics as well 鈥 and they鈥檙e doing this autonomically,鈥 he says.
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To understand how, the team used advanced molecular and mechanical analysis techniques and modelling to investigate the composition and detailed functions of the worms鈥 jaws.
The group discovered that it is governed by a protein that controls a multistep process, which starts by binding copper from the environment, then mixing this copper in an aqueous solution, then separating it to produce a dense liquid that catalyses the conversion of an available amino acid into melanin.
While melanin often serves as a pigment for colour traits in other animals, it seems to make the bloodworm鈥檚 jaws more resistant to wear, says Waite.
鈥淭ogether, these form a composite like that in rubber-filled reinforced tires, or fibreglass, and they involve so much less machinery than the industry [does],鈥 he says.
The protein’s relatively simple structure is surprising because, in biochemistry, catalysts are usually based on much more complex proteins, and the protein does more than just catalyse. 鈥淚t really does boggle the mind how a low-complexity system like that can do that many different basically unrelated tasks to come up with a composite material,鈥 says Waite.
The findings could trigger engineers to improve the design and manufacturing of composite materials, like concrete and rubber-filled tyres, which could 鈥 in a sense 鈥 help build themselves, he says.
Matter
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