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Transformation of meiotic drive into hybrid sterility in Drosophila
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Abstract
Hybrid male sterility is one of the fastest evolving intrinsic reproductive barriers between recently isolated populations. A leading explanation for the evolution of hybrid male sterility involves genomic conflicts with meiotic drivers in the male germline. There are, however, few examples directly linking meiotic drive to hybrid sterility. Here, we report that the
Sex-Ratio
chromosome of
Drosophila pseudoobscura
, which causes X-chromosome drive within the USA subspecies, causes near complete male sterility when moved into the genetic background of the Bogota subspecies. In addition, we show that this new form of sterility is genetically distinct from the sterility of F1 hybrid males in crosses between USA males and Bogota females. Our observations provide a tractable study system where non-cryptic drive within species is transformed into strong hybrid sterility between very young subspecies.
Title: Transformation of meiotic drive into hybrid sterility in Drosophila
Description:
Abstract
Hybrid male sterility is one of the fastest evolving intrinsic reproductive barriers between recently isolated populations.
A leading explanation for the evolution of hybrid male sterility involves genomic conflicts with meiotic drivers in the male germline.
There are, however, few examples directly linking meiotic drive to hybrid sterility.
Here, we report that the
Sex-Ratio
chromosome of
Drosophila pseudoobscura
, which causes X-chromosome drive within the USA subspecies, causes near complete male sterility when moved into the genetic background of the Bogota subspecies.
In addition, we show that this new form of sterility is genetically distinct from the sterility of F1 hybrid males in crosses between USA males and Bogota females.
Our observations provide a tractable study system where non-cryptic drive within species is transformed into strong hybrid sterility between very young subspecies.
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