Amplicon sequencing allows differential quantification of closely related parasite species: an example from rodent Coccidia (Eimeria)

Closely related host species share similar symbionts, but the effects of host genetic admixture and environmental conditions on these communities remain largely unknown. We investigated the influence of host genetic admixture and environmental factors on the intestinal prokaryotic and eukaryotic communities (fungi, parasites) of two house mouse subspecies ( Mus musculus domesticus and M. m. musculus ) and their hybrids in two settings: (i) wild-caught mice from the European hybrid zone and (ii) wild-derived inbred mice in a controlled laboratory environment before and during a community perturbation (infection). In wild-caught mice, environmental factors strongly predicted the overall microbiome composition. Subspecies' genetic distance significantly influenced the overall microbiome composition, and each component (bacteria, parasites and fungi). While hybridization had a weak effect, it significantly impacted fungal composition. We observed similar patterns in wild-derived mice, where genetic distances and hybridization influenced microbiome composition, with fungi being more stable to infection-induced perturbations than other microbiome components. Subspecies' genetic distance has a stronger and consistent effect across microbiome components than differences in expected heterozygosity among hybrids, suggesting that host divergence and host filtering play a key role in microbiome divergence, influenced by environmental factors. Our findings offer new insights into the eco-evolutionary processes shaping host–microbiome interactions.

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Subspecies divergence, hybridisation and the spatial environment shape phylosymbiosis in the microbiome of house mice

Ferreira,

Jarquín-Díaz,

Planillo

et al. 2023

Preprint

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Closely related host species share similar symbionts, yet how host genetics and the environment affect symbiont communities at different stages of host genetic divergence remains largely unknown. Similarly, it is unclear whether host-symbiont associations result from or contribute to host divergence.We examined the intestinal community of 619 wild-caught mice from Germany’s European house mouse hybrid zone. Here, hybridisation upon secondary contact reflects divergence and could be traced gradually.Temporal and spatial factors were strong predictors of microbiome composition. Subspecies divergence predicted the composition similarity of the overall microbiome, specifically in the bacteria, parasite and fungal components. The effect of hybridisation was generally weak but significant for the fungal component. We confirmed our results in experiments with wild-derived inbred mice: subspecies’ genetic distances and hybridisation predicted the overall microbiome composition, and hybridisation further predicted fungal similarities among individuals. Fungi seemed more stable to the community perturbation of infection than other components of the microbiome.Differences between subspecies were more substantial across different microbiome components than those associated with hybridisation. Diverged microbiomes are a product of host divergence and are maintained by host genetics upon large environmental effects. These results provide a unique perspective into the ecoevolutionary processes shaping phylosymbiosis.

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Amplicon sequencing allows differential quantification of closely related parasite species: an example from rodent Coccidia (Eimeria)

Cited by 4 publications

References 74 publications

Host weight, seasonality and anthropogenic factors contribute to parasite community differences between urban and rural foxes

Host weight, seasonality and anthropogenic factors contribute to parasite community differences between urban and rural foxes

Eco-evolutionary dynamics of host–microbiome interactions in a natural population of closely related mouse subspecies and their hybrids

Subspecies divergence, hybridisation and the spatial environment shape phylosymbiosis in the microbiome of house mice

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