Authors
Levke Hansen, Daniela E Winkler, Anja Guenther, Christine Böhmer
Published in
The Journal of experimental biology. Apr 25, 2025. Epub Apr 25, 2025.
Abstract
Isolated environments such as islands can provide restricted dietary resources of varying quality. This has a major impact on evolution of island species, and can lead to rapid morphological adaptation, especially in small mammals. In order to understand the impact of diet quality on the masticatory apparatus in the model species Mus musculus domesticus, we quantitatively analyzed the main masticatory muscles and the mandibular morphology in semi-natural populations kept on different diets for six generations. The investigation of individuals of the F5 generation raised on high quality (HQ) or standard quality (SQ) diets revealed significantly higher muscle mass and larger anatomical cross-sectional area (ACSA) of the M. masseter and the M. temporalis in mice raised on SQ diet as compared to HQ diet. A trend towards more robust (i.e., sturdy) mandible morphology in SQ mice as compared to HQ mice was evident. The investigation of individuals of two F6 generations which were fed on a diet different from that of the preceding generation revealed that the diet switch from HQ to SQ resulted in increased muscle size, whereas the diet switch from SQ to HQ lead to decreased muscle size as compared to the respective control group. The mandible displayed limited differences in morphology. These findings suggest that within six generations, diet quality could be a selection factor for morphological traits in the mandible which may become epigenetically fixed. However, additional studies such as DNA methylation and histone modification are necessary to unravel the role of the epigenome in this context.
PMID:
40279523
Bibliographic data and abstract were imported from PubMed on 26 Apr 2025.
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