4.2 Article

Diet evolution of carnivorous and herbivorous mammals in Laurasiatheria

期刊

BMC ECOLOGY AND EVOLUTION
卷 22, 期 1, 页码 -

出版社

BMC
DOI: 10.1186/s12862-022-02033-6

关键词

Dietary evolution; Carnivores; Herbivores; Digestive system genes; Positive selection

资金

  1. National Natural Science Foundation of China [32171604, 31770401]
  2. Fundamental Research Funds for the Central Universities

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Using a molecular phyloecological approach, this study examined the adaptive evolution of digestive system-related genes in carnivorous and herbivorous mammals within Laurasiatheria. The results show intensified selection of fat and protein utilization in carnivorous lineages, consistent with their high-protein and high-fat diets. Interestingly, herbivorous lineages exhibited a similar selection pattern, suggesting that the selection of digestive system-related genes is not solely determined by nutrient components in their diets.
Background Laurasiatheria contains taxa with diverse diets, while the molecular basis and evolutionary history underlying their dietary diversification are less clear. Results In this study, we used the recently developed molecular phyloecological approach to examine the adaptive evolution of digestive system-related genes across both carnivorous and herbivorous mammals within Laurasiatheria. Our results show an intensified selection of fat and/or protein utilization across all examined carnivorous lineages, which is consistent with their high-protein and high-fat diets. Intriguingly, for herbivorous lineages (ungulates), which have a high-carbohydrate diet, they show a similar selection pattern as that of carnivorous lineages. Our results suggest that for the ungulates, which have a specialized digestive system, the selection intensity of their digestive system-related genes does not necessarily reflect loads of the nutrient components in their diets but appears to be positively related to the loads of the nutrient components that are capable of being directly utilized by the herbivores themselves. Based on these findings, we reconstructed the dietary evolution within Laurasiatheria, and our results reveal the dominant carnivory during the early diversification of Laurasiatheria. In particular, our results suggest that the ancestral bats and the common ancestor of ruminants and cetaceans may be carnivorous as well. We also found evidence of the convergent evolution of one fat utilization-related gene, APOB, across carnivorous taxa. Conclusions Our molecular phyloecological results suggest that digestive system-related genes can be used to determine the molecular basis of diet differentiations and to reconstruct ancestral diets.

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