@article {Hough007047, author = {Josh Hough and J. Arvid {\r A}gren and Spencer C.H. Barrett and Stephen I. Wright}, title = {Chromosomal distribution of cyto-nuclear genes in a dioecious plant with sex chromosomes}, elocation-id = {007047}, year = {2014}, doi = {10.1101/007047}, publisher = {Cold Spring Harbor Laboratory}, abstract = {The coordination between nuclear and organellar genes is essential to many aspects of eukaryotic life, including basic metabolism, energy production, and ultimately, organismal fitness. Whereas nuclear genes are bi-parentally inherited, mitochondrial and chloroplast genes are almost exclusively maternally inherited, and this asymmetry may lead to a bias in the chromosomal distribution of nuclear genes whose products act in the mitochondria or chloroplasts. In particular, because X-linked genes have a higher probability of co-transmission with organellar genes (2/3) compared to autosomal genes (1/2), selection for co-adaptation has been predicted to lead to an over-representation of nuclear-mitochondrial (N-mt) or nuclear-chloroplast (N-cp) genes on the X chromosome relative to autosomes. In contrast, the occurrence of sexually antagonistic organellar mutations might lead to selection for movement of cyto-nuclear genes from the X chromosome to autosomes to reduce male mutation load. Recent broad-scale comparative studies of N-mt distributions in animals have found evidence for these hypotheses in some species, but not others. Here, we use transcriptome sequences to conduct the first study of the chromosomal distribution of cyto-nuclear interacting genes in a plant species with sex chromosomes (Rumex hastatulus; Polygonaceae). We found no evidence of under- or over-representation of either N-mt or N-cp genes on the X chromosome, and thus no support for either the co-adaptation or the sexual-conflict hypothesis. We discuss how our results from a species with recently evolved sex chromosomes fit into an emerging picture of the evolutionary forces governing the chromosomal distribution of N-mt and N-cp genes.}, URL = {https://www.biorxiv.org/content/early/2014/07/11/007047}, eprint = {https://www.biorxiv.org/content/early/2014/07/11/007047.full.pdf}, journal = {bioRxiv} }