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. 2020 Oct;281(10):1328-1350.
doi: 10.1002/jmor.21250. Epub 2020 Aug 24.

Radula formation in two species of Conoidea (Gastropoda)

Elena Vortsepneva  1 David G Herbert  2 Yuri Kantor  3
Affiliations

Radula formation in two species of Conoidea (Gastropoda)

Elena Vortsepneva et al. J Morphol. 2020 Oct.

Abstract

The radula is the basic feeding structure in gastropod molluscs and exhibits great morphological diversity that reflects the exceptional anatomical and ecological diversity occurring in these animals. This uniquely molluscan structure is formed in the blind end of the radular sac by specialized cells (membranoblasts and odontoblasts). Secretion type, and the number and shape of the odontoblasts that form each tooth characterize the mode of radula formation. These characteristics vary in different groups of gastropods. Elucidation of this diversity is key to identifying the main patterns of radula formation in Gastropoda. Of particular interest would be a phylogenetically closely related group that is characterized by high variability of the radula. One such group is the large monophyletic superfamily Conoidea, the radula of which is highly variable and may consist of the radular membrane with five teeth per row, or the radular membrane with only two or three teeth per row, or even just two harpoon-like teeth per row without a radular membrane. We studied the radulae of two species of Conoidea (Clavus maestratii Kilburn, Fedosov & Kantor, 2014 [Drilliidae] and, Lophiotoma acuta (Perry, 1811) [Turridae]) using light and electron microscopy. Based on these data and previous studies, we identify the general patterns of the radula formation for all Conoidea: the dorsolateral position of two groups of odontoblasts, uniform size, and shape of odontoblasts, folding of the radula in the radular sac regardless of the radula configuration. The morphology of the subradular epithelium is most likely adaptive to the radula type.

Keywords: membranoblasts; odontoblasts; tooth formation; tooth use; ultrastructure.

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REFERENCES

    1. Abdelkrim, J., Aznar-Cormano, L., Fedosov, A., Kantor, Y., Lozouet, P., Phuong, M., … Puillandre, N. (2018). Exon-capture-based phylogeny and diversification of the venomous gastropods (Neogastropoda, Conoidea). Molecular Biology and Evolution, 35(10), 2355-2374. https://doi.org/10.1093/molbev/msy144
    1. Bouchet, P., Kantor, Y. I., Sysoev, A., & Puillandre, N. (2011). New operational classification of the Conoidea (Gastropoda). Journal of Molluscan Studies, 77(3), 273-308. https://doi.org/10.1093/mollus/eyr017
    1. Castelin, M., Puillandre, N., Kantor, Y. I., Modica, M. V., Terryn, Y., Cruaud, C., … Holford, M. (2012). Macroevolution of venom apparatus innovations in auger snails (Gastropoda; Conoidea; Terebridae). Molecular Phylogenetics and Evolution, 64(1), 21-44. https://doi.org/10.1016/j.ympev.2012.03.001
    1. Dutertre, S., Jin, A. H., Vetter, I., Hamilton, B., Sunagar, K., & Lavergne, V. (2014). Evolution of separate predation- and defence-evoked venoms in carnivorous cone snails. Nature Communications, 5, 3521.
    1. Kantor, Y., & Taylor, J. D. (2000). Formation of marginal radular teeth in Conoidea (Neogastropoda) and the evolution of the hypodermic envenomation mechanism. Journal of Zoology, 252, 251-262.

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