Authors
Ganofsky, J., Estevez-Villar, M., Mouginot, M., Moretti, S., Nyamari, M., Robinson-Rechavi, M., Pantalacci, S., Semon, M.
Abstract
Although it is well established that certain stages of development are molecularly more conserved than others, the reasons for this phenomenon remain largely unknown. We study molecular conservation in the development of an organ, the molar, by comparing the temporal profiles of expression in mice and hamsters. We find that the cause of conservation of expression and of coding sequences changes over molar development. Gene expression levels display a classical increase of divergence as development progresses. In terms of genes expressed, the composition of early and late stages is better conserved and enriched in pleiotropic genes, yet each stage mobilizes different sets of pleiotropic genes, cell division for bud growth and secretion for tooth mineralization. Moreover similar patterns of higher divergence of gene sets and of coding sequences at mid development, are caused by different biological phenomena, in that case heterochronies and blood supply respectively. In conclusion, the patterns of molecular conservation in developing molars are shaped by a combination of processes intrinsic to the teeth, and by negative and positive selection on functions which are mostly extrinsic to the teeth. This is likely translatable to explain molecular conservation patterns in many other biological systems.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 21 Jun 2026.
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