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Sex chromosome repeats tip the balance towards speciation
Author(s) -
O'Neill Michael J.,
O'Neill Rachel J.
Publication year - 2018
Publication title -
molecular ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.619
H-Index - 225
eISSN - 1365-294X
pISSN - 0962-1083
DOI - 10.1111/mec.14577
Subject(s) - biology , dosage compensation , genetics , evolution of sexual reproduction , chromosome , evolutionary biology , genetic algorithm , autosome , meiotic drive , reproductive isolation , x chromosome , gene , population , demography , sociology
Abstract Because sex chromosomes, by definition, carry genes that determine sex, mutations that alter their structural and functional stability can have immediate consequences for the individual by reducing fertility, but also for a species by altering the sex ratio. Moreover, the sex‐specific segregation patterns of heteromorphic sex chromosomes make them havens for selfish genetic elements that not only create suboptimal sex ratios but can also foster sexual antagonism. Compensatory mutations to mitigate antagonism or return sex ratios to a Fisherian optimum can create hybrid incompatibility and establish reproductive barriers leading to species divergence. The destabilizing influence of these selfish elements is often manifest within populations as copy number variants ( CNV s) in satellite repeats and transposable elements ( TE ) or as CNV s involving sex‐determining genes, or genes essential to fertility and sex chromosome dosage compensation. This review catalogs several examples of well‐studied sex chromosome CNV s in Drosophilids and mammals that underlie instances of meiotic drive, hybrid incompatibility and disruptions to sex differentiation and sex chromosome dosage compensation. While it is difficult to pinpoint a direct cause/effect relationship between these sex chromosome CNV s and speciation, it is easy to see how their effects in creating imbalances between the sexes, and the compensatory mutations to restore balance, can lead to lineage splitting and species formation.

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