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<blockquote data-quote="albertonykus" data-source="post: 4182719" data-attributes="member: 148485"><p>Lopez, K.A., C.S. McDiarmid, S.C. Griffith, I.J. Lovette, and D.M. Hooper (2021)</p><p>Evaluating evidence of mitonuclear incompatibilities with the sex chromosomes in an avian hybrid zone</p><p><em>Evolution</em> (advance online publication)</p><p>doi: 10.1111/evo.14243</p><p><a href="https://onlinelibrary.wiley.com/doi/10.1111/evo.14243" target="_blank">https://onlinelibrary.wiley.com/doi/10.1111/evo.14243</a></p><p></p><p>The exploration of hybrid zones and the intergenomic conflicts exposed through hybridization provide windows into the processes of divergence and speciation. Sex chromosomes and mitonuclear incompatibilities have strong associations with the genetics of hybrid dysfunction. In ZW sex‐determining systems, maternal co‐inheritance of the mitochondrial and W chromosomes immediately exposes incompatibilities between these maternal contributions of one species and the Z chromosome of another. We analyze mitochondrial and Z chromosome admixture in the long‐tailed finch (<em>Poephila acuticauda</em>) of Australia, where hybridizing subspecies differ prominently in Z chromosome genotype and in bill color, yet the respective centers of geographic admixture for these two traits are offset by 350 km. We report two well‐defined mitochondrial clades that diverged ∼0.5 Mya. Mitochondrial contact is geographically co‐located within a hybrid zone of Z chromosome admixture and is displaced from bill color admixture by nearly 400 km. Consistent with Haldane's rule expectations, hybrid zone females are significantly less likely than males to carry an admixed Z chromosome or have mismatched Z‐mitochondrial genotypes. Furthermore, there are significantly fewer than expected mitonuclear mismatches in hybrid zone females and paternal backcross males. Results suggest a potential for mitonuclear/sex chromosome incompatibilities in the emergence of reproductive isolation in this system.</p></blockquote><p></p>
[QUOTE="albertonykus, post: 4182719, member: 148485"] Lopez, K.A., C.S. McDiarmid, S.C. Griffith, I.J. Lovette, and D.M. Hooper (2021) Evaluating evidence of mitonuclear incompatibilities with the sex chromosomes in an avian hybrid zone [I]Evolution[/I] (advance online publication) doi: 10.1111/evo.14243 [URL]https://onlinelibrary.wiley.com/doi/10.1111/evo.14243[/URL] The exploration of hybrid zones and the intergenomic conflicts exposed through hybridization provide windows into the processes of divergence and speciation. Sex chromosomes and mitonuclear incompatibilities have strong associations with the genetics of hybrid dysfunction. In ZW sex‐determining systems, maternal co‐inheritance of the mitochondrial and W chromosomes immediately exposes incompatibilities between these maternal contributions of one species and the Z chromosome of another. We analyze mitochondrial and Z chromosome admixture in the long‐tailed finch ([I]Poephila acuticauda[/I]) of Australia, where hybridizing subspecies differ prominently in Z chromosome genotype and in bill color, yet the respective centers of geographic admixture for these two traits are offset by 350 km. We report two well‐defined mitochondrial clades that diverged ∼0.5 Mya. Mitochondrial contact is geographically co‐located within a hybrid zone of Z chromosome admixture and is displaced from bill color admixture by nearly 400 km. Consistent with Haldane's rule expectations, hybrid zone females are significantly less likely than males to carry an admixed Z chromosome or have mismatched Z‐mitochondrial genotypes. Furthermore, there are significantly fewer than expected mitonuclear mismatches in hybrid zone females and paternal backcross males. Results suggest a potential for mitonuclear/sex chromosome incompatibilities in the emergence of reproductive isolation in this system. [/QUOTE]
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