Plicidentine and the repeated origins of snake venom fangs.

Alessandro Palci, Aaron R H LeBlanc, Olga Panagiotopoulou, Silke G C Cleuren, Hyab Mehari Abraha, Mark N Hutchinson, Alistair R Evans, Michael W Caldwell, Michael S Y Lee

Proceedings. Biological sciences 2021 Aug 11

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Snake fangs are an iconic exemplar of a complex adaptation, but despite striking developmental and morphological similarities, they probably evolved independently in several lineages of venomous snakes. How snakes could, uniquely among vertebrates, repeatedly evolve their complex venom delivery apparatus is an intriguing question. Here we shed light on the repeated evolution of snake venom fangs using histology, high-resolution computed tomography (microCT) and biomechanical modelling. Our examination of venomous and non-venomous species reveals that most snakes have dentine infoldings at the bases of their teeth, known as plicidentine, and that in venomous species, one of these infoldings was repurposed to form a longitudinal groove for venom delivery. Like plicidentine, venom grooves originate from infoldings of the developing dental epithelium prior to the formation of the tooth hard tissues. Derivation of the venom groove from a large plicidentine fold that develops early in tooth ontogeny reveals how snake venom fangs could originate repeatedly through the co-option of a pre-existing dental feature even without close association to a venom duct. We also show that, contrary to previous assumptions, dentine infoldings do not improve compression or bending resistance of snake teeth during biting; plicidentine may instead have a role in tooth attachment.

Citation

Alessandro Palci, Aaron R H LeBlanc, Olga Panagiotopoulou, Silke G C Cleuren, Hyab Mehari Abraha, Mark N Hutchinson, Alistair R Evans, Michael W Caldwell, Michael S Y Lee. Plicidentine and the repeated origins of snake venom fangs. Proceedings. Biological sciences. 2021 Aug 11;288(1956):20211391