# Reduction of Tooth Replacement Disproportionately Affects the Evolution of Enamel Matrix Proteins

**Authors:** John Abramyan, Gengxin Li, Hannah Khansa

PMC · DOI: 10.1007/s00239-025-10258-4 · 2025-08-07

## TL;DR

Lizards and mammals that stop replacing teeth evolve stronger enamel proteins, especially AMEL, to compensate for the loss.

## Contribution

The study reveals that reduced tooth replacement disproportionately influences the evolution of enamel matrix proteins, particularly AMEL.

## Key findings

- Acrodont lizards and mammals show accelerated evolution in enamel proteins after losing tooth replacement.
- AMEL exhibits a particularly strong evolutionary response to the loss of tooth replacement.
- The reduction in tooth generations correlates with changes in the coding and amino acid sequences of enamel proteins.

## Abstract

In most vertebrates, teeth are continuously shed and replaced throughout life, while mammals and several lineages of reptiles have reduced replacement to only one or two generations. In contrast to the vast majority of their living relatives, members of the lizard families Chamaeleonidae and Agamidae have dispensed with lifelong tooth replacement, instead developing acrodont dentition that fuses to the jawbone to be used for the lifetime of the animal. Though, the loss of tooth replacement has not come without a cost. In order to mitigate the consequences that come with tooth replacement loss, mammals and acrodont lizards have evolved adaptations that strengthen enamel structure and minimize wear and tear experienced during the life of the animal. While these physical adaptations are well documented, the effect that loss of tooth replacement has had on the molecular components of teeth has not received significant attention. Here, we analyze the coding and amino acid sequences of six tooth proteins (AMBN, AMEL, AMTN, ACP4, ENAM, and MMP20) from acrodont lizards, pleurodont lizards that replace teeth, and mammals. We show that the reduction of tooth generations has disproportionately affected the evolutionary trajectory of proteins associated with enamel structure, with a particularly magnified effect on the evolution of AMEL.

The online version contains supplementary material available at 10.1007/s00239-025-10258-4.

## Linked entities

- **Genes:** AMBN (ameloblastin) [NCBI Gene 258], Amelx (amelogenin, X-linked) [NCBI Gene 11704], AMTN (amelotin) [NCBI Gene 401138], ACP4 (acid phosphatase 4) [NCBI Gene 93650], ENAM (enamelin) [NCBI Gene 10117], MMP20 (matrix metallopeptidase 20) [NCBI Gene 9313]
- **Species:** Chamaeleonidae (taxon 40248), Agamidae (taxon 81953)

## Full-text entities

- **Diseases:** Tooth Replacement (MESH:D014076), tooth replacement loss (MESH:D016388)
- **Species:** Zootoca vivipara (common lizard, species) [taxon 8524]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12354546/full.md

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Source: https://tomesphere.com/paper/PMC12354546