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Extreme conservation of cnidarian stinging cell identity despite 600 million years of evolution

Created on 19 Jun 2026

Authors

Arnold, S. E., Besemer, R. M., Sharp, K., Roberson, L. M., Warner, J. F., Babonis, L. S.

Abstract

Understanding how cells specialize is essential for reconstructing the diversification of life on earth. Cnidocytes (stinging cells) have a single origin in the stem cnidarian (~800mya) and have since specialized into extremes in morphology and function. Using single-cell RNA sequencing and transcriptional lineage reconstruction in a coral and a sea anemone, we show that a single gene (FoxL2) controls a critical switch point in the evolution of cnidocyte diversity: the decision to be a piercing cell or an ensnaring cell. Surprisingly, ensnaring cells are one of the most highly conserved differentiated cell types. This suggests spirocytes reached an adaptive peak early and have changed little during the 600 million years since corals and sea anemones last shared a common ancestor, making them "living fossil" cells.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 19 Jun 2026.

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