%0 Journal Article %1 sloan2016onagain %A Sloan, Daniel B. %A Havird, Justin C. %A Sharbrough, Joel %D 2016 %J Molecular Ecology %K genetic_load introgression mitochondria mitochondrial_adaptation speciation %P n/a--n/a %R 10.1111/mec.13959 %T The On-Again, Off-Again Relationship between Mitochondrial Genomes and Species Boundaries %U http://dx.doi.org/10.1111/mec.13959 %X The study of reproductive isolation and species barriers frequently focuses on mitochondrial genomes and has produced two alternative and almost diametrically opposed narratives. On one hand, mtDNA may be at the forefront of speciation events, with coevolved mitonuclear interactions responsible for some of the earliest genetic incompatibilities arising among isolated populations. On the other hand, there are numerous cases of introgression of mtDNA across species boundaries even when nuclear gene flow is restricted. We argue that these seemingly contradictory patterns can result from a single underlying cause. Specifically, the accumulation of deleterious mutations in mtDNA creates a problem with two alternative evolutionary solutions. In some cases, compensatory or epistatic changes in the nuclear genome may ameliorate the effects of mitochondrial mutations, thereby establishing coadapted mitonuclear genotypes within populations and forming the basis of reproductive incompatibilities between populations. Alternatively, populations with high mitochondrial mutation loads may be rescued by replacement with a more fit, foreign mitochondrial haplotype. Coupled with many non-adaptive mechanisms of introgression that can preferentially affect cytoplasmic genomes, this form of adaptive introgression may contribute to the widespread discordance between mitochondrial and nuclear genealogies. Here, we review recent advances related to mitochondrial introgression and mitonuclear incompatibilities, including the potential for cointrogression of mtDNA and interacting nuclear genes. We also address an emerging controversy over the classic assumption that selection on mitochondrial genomes is inefficient and discuss the mechanisms that lead lineages down alternative evolutionary paths in response to mitochondrial mutation accumulation.This article is protected by copyright. All rights reserved.

@article{sloan2016onagain, abstract = {The study of reproductive isolation and species barriers frequently focuses on mitochondrial genomes and has produced two alternative and almost diametrically opposed narratives. On one hand, mtDNA may be at the forefront of speciation events, with coevolved mitonuclear interactions responsible for some of the earliest genetic incompatibilities arising among isolated populations. On the other hand, there are numerous cases of introgression of mtDNA across species boundaries even when nuclear gene flow is restricted. We argue that these seemingly contradictory patterns can result from a single underlying cause. Specifically, the accumulation of deleterious mutations in mtDNA creates a problem with two alternative evolutionary solutions. In some cases, compensatory or epistatic changes in the nuclear genome may ameliorate the effects of mitochondrial mutations, thereby establishing coadapted mitonuclear genotypes within populations and forming the basis of reproductive incompatibilities between populations. Alternatively, populations with high mitochondrial mutation loads may be rescued by replacement with a more fit, foreign mitochondrial haplotype. Coupled with many non-adaptive mechanisms of introgression that can preferentially affect cytoplasmic genomes, this form of adaptive introgression may contribute to the widespread discordance between mitochondrial and nuclear genealogies. Here, we review recent advances related to mitochondrial introgression and mitonuclear incompatibilities, including the potential for cointrogression of mtDNA and interacting nuclear genes. We also address an emerging controversy over the classic assumption that selection on mitochondrial genomes is inefficient and discuss the mechanisms that lead lineages down alternative evolutionary paths in response to mitochondrial mutation accumulation.This article is protected by copyright. All rights reserved.}, added-at = {2016-12-21T18:05:15.000+0100}, author = {Sloan, Daniel B. and Havird, Justin C. and Sharbrough, Joel}, biburl = {https://www.bibsonomy.org/bibtex/2de892de175bfa85a214e913da0606762/peter.ralph}, doi = {10.1111/mec.13959}, interhash = {aea61edd60d19bf3957e808c040f7bda}, intrahash = {de892de175bfa85a214e913da0606762}, issn = {1365-294X}, journal = {Molecular Ecology}, keywords = {genetic_load introgression mitochondria mitochondrial_adaptation speciation}, pages = {n/a--n/a}, timestamp = {2016-12-21T18:05:15.000+0100}, title = {The On-Again, Off-Again Relationship between Mitochondrial Genomes and Species Boundaries}, url = {http://dx.doi.org/10.1111/mec.13959}, year = 2016 }