The toad's warts: Discordance creates bumpy expectations of mitochondrial-nuclear evolution between species

Genomic SNPs resolve the phylogeny of an ancient amphibian island radiation from the Seychelles

Unusually for oceanic islands, the granitic Seychelles host multiple lineages of endemic amphibians. This includes an ancient (likely ca. 60 million years) radiation of eight caecilian species, most of which occur on multiple islands.These caecilians have a complicated taxonomic history and their phylogenetic inter-species relationships have been difficult to resolve. Double-digest RAD sequencing (ddRADseq) has been applied extensively to phylogeography and increasingly to phylogenetics but its utility for resolving ancient divergences is less well established. To address this, we applied ddRADseq to generate a genome-wide SNP panel for phylogenomic analyses of the Seychelles caecilians, whose phylogeny has so far not been satisfactorily resolved with traditional DNA markers. Based on 129,154 SNPs, we resolved deep and shallow splits, with strong support. Our findings demonstrate the capability of genome-wide SNPs for evolutionary inference at multiple taxonomic levels and support the recently proposed synonymy of Grandisonia Taylor, 1968 with Hypogeophis Peters, 1879. We revealed three clades of Hypogeophis (large-, medium- and short-bodied) and identify a single origin of the diminutive, stocky-bodied and pointy-snouted phenotype.

Mitonuclear mismatch alters nuclear gene expression in naturally introgressed Rhinolophus bats

Background

Mitochondrial function involves the interplay between mitochondrial and nuclear genomes. Such mitonuclear interactions can be disrupted by the introgression of mitochondrial DNA between taxa or divergent populations. Previous studies of several model systems (e.g. Drosophila) indicate that the disruption of mitonuclear interactions, termed mitonuclear mismatch, can alter nuclear gene expression, yet few studies have focused on natural populations.

Results

Here we study a naturally introgressed population in the secondary contact zone of two subspecies of the intermediate horseshoe bat (Rhinolophus affinis), in which individuals possess either mitonuclear matched or mismatched genotypes. We generated transcriptome data for six tissue types from five mitonuclear matched and five mismatched individuals. Our results revealed strong tissue-specific effects of mitonuclear mismatch on nuclear gene expression with the largest effect seen in pectoral muscle. Moreover, consistent with the hypothesis that genes associated with the response to oxidative stress may be upregulated in mitonuclear mismatched individuals, we identified several such gene candidates, including DNASE1L3, GPx3 and HSPB6 in muscle, and ISG15 and IFI6 in heart.

Conclusion

Our study reveals how mitonuclear mismatch arising from introgression in natural populations is likely to have fitness consequences. Underlying the processes that maintain mitonuclear discordance is a step forward to understand the role of mitonuclear interactions in population divergence and speciation.

Supplementary Information

The online version contains supplementary material available at 10.1186/s12983-021-00424-x.

Genetic divergence, admixture and subspecific boundaries in a peripheral population of the great tit, Parus major (Aves: Paridae)

Secondary contact zones have been formed between several pairs of avian species and subspecies in northern and north-eastern Iran during the post-Pleistocene and Holocene periods. Three subspecies groups out of the four in the great tit (Parus major), major, bokharensis and cinereus, are believed to have come into local or regional secondary contact in north-eastern Iran. Parus major intermedius is also known from this region and has long been suggested to have a hybrid origin from hybridization between the yellow western (major) subspecies group and the grey-coloured eastern (bokharensis or cinereus) subspecies group based on its intermediate plumage coloration. Here, we investigated the evidence of intergradation between subspecies groups and the evolutionary origin of P. m. intermedius using mitochondrial DNA sequences and microsatellites, and approximate Bayesian computation to test competing scenarios for the demographic history of the populations. Our analyses indicate a divergence origin for intermedius that resulted from expansion of the major subspecies group. Low mitochondrial diversity and high genetic differentiation in comparison with central populations suggest that intermedius is a peripheral population. Microsatellite data show no signs of nuclear admixture between the bokharensis and major subspecies groups. However, one phenotypically intermedius specimen had bokharensis mtDNA and major nuclear DNA in the assumed hybrid zone (Lotf Abad), supporting past introgression.