“Dental Origami” – How Snakes Got Their Fangs - SciTechDaily

Types of Venom Fangs in Snakes

Types of venom fangs in snakes: rear fangs (crab-eating water snake), fixed front fangs (taipan), and hinged front fangs (Gaboon viper); fangs highlighted in red. Credit A. Palci

'Dental origami' exploited by multiple species.

Ever wondered how deadly snakes evolved their fangs? The answer lies in particular microscopic features of their teeth, research led by Flinders University and the South Australian Museum suggests.

"It's always been a mystery why fangs have evolved so many times in snakes, but rarely in other reptiles. Our study answers this, showing how easy it is for normal snake teeth to turn into hypodermic needles," says lead author Dr. Alessandro Palci, from Flinders University.

Taipan Skull Fangs

Skull of a taipan and sections through its left fang showing the relationship between venom groove and infoldings at the base of the tooth. Credit: A. Palci

Of almost 4,000 species of snakes alive today, about 600 of them are considered 'medically significant' to humans, meaning that if you get bitten you are very likely to require a visit to the nearest hospital for treatment.

Venom fangs are modified teeth that are grooved and larger than other nearby teeth. They can be located at the back or at the front of the mouth, where they can be fixed or hinged (i.e. they can fold backwards).

Gaboon Viper Fang

The fang of a Gaboon viper (attached to the bone, the maxilla). Credit: A. Palci (Flinders University)

Australian and overseas researchers used high-tech modelling, fossils, and hours of microscope observations to reveal that snakes possess tiny infoldings, or wrinkles, at the base of the teeth. These infoldings might help teeth attach more firmly to the jaw. In venomous snakes, one of these wrinkles becomes deeper and extends all the way to the tooth tip, thus producing a venom groove and a fang.

"Our work also highlights the opportunism and efficiency of evolution. Wrinkles which helped attach teeth to the jaw were repurposed to help inject venom," says co-author Matthew Flinders Professor Michael Lee (Flinders University and South Australian Museum).

Alessandro Palci

Flinders University researcher Dr Alessandro Palci with a non-venomous snake at the SA Museum Discovery Centre. Credit: Flinders University

Reference: "Plicidentine and the repeated origins of snake venom fangs" by Alessandro Palci, Aaron R. H. LeBlanc, Olga Panagiotopoulou, Silke G. C. Cleuren, Hyab Mehari Abraha, Mark N. Hutchinson, Alistair R. Evans, Michael W. Caldwell and Michael S. Y. Lee, 10 August 2021, Proceedings of the Royal Society B.
DOI: 10.1098/rspb.2021.1391

Researchers received funding from an NSERC Postdoctoral Fellowship, NSERC Discovery Grant, Australian Research Council Discovery Program and University of Alberta grants.

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