Independent Origins of New Sex-Linked Chromosomes in the melanica and robusta Species Groups of Drosophila
Author
dc.contributor.author
Flores Carrasco, Sergio
Author
dc.contributor.author
Evans, Amy
es_CL
Author
dc.contributor.author
McAllister, Bryant
es_CL
Admission date
dc.date.accessioned
2014-03-25T18:31:47Z
Available date
dc.date.available
2014-03-25T18:31:47Z
Publication date
dc.date.issued
2008-01
Cita de ítem
dc.identifier.citation
BMC Evolutionary Biology. Nº 8, 2008. pp. 1-17.
en_US
Identifier
dc.identifier.uri
https://repositorio.uchile.cl/handle/2250/122056
Abstract
dc.description.abstract
Background: Recent translocations of autosomal regions to the sex chromosomes represent
important systems for identifying the evolutionary forces affecting convergent patterns of sexchromosome
heteromorphism. Additions to the sex chromosomes have been reported in the
melanica and robusta species groups, two sister clades of Drosophila. The close relationship between
these two species groups and the similarity of their rearranged karyotypes motivates this test of
alternative hypotheses; the rearranged sex chromosomes in both groups are derived through a
common origin, or the rearrangements are derived through at least two independent origins. Here
we examine chromosomal arrangement in representatives of the melanica and the robusta species
groups and test these alternative hypotheses using a phylogenetic approach.
Results: Two mitochondrial and two nuclear gene sequences were used to reconstruct
phylogenetic relationships of a set of nine ingroup species having fused and unfused sex
chromosomes and representing a broad sample of both species groups. Different methods of
phylogenetic inference, coupled with concurrent cytogenetic analysis, indicate that the hypothesis
of independent origins of rearranged sex chromosomes within each species group is significantly
more likely than the alternative hypothesis of a single common origin. An estimate tightly
constrained around 8 My was obtained for the age of the rearranged sex chromosomes in the
melanica group; however, a more loosely constrained estimate of 10–15 My was obtained for the
age of the rearrangement in the robusta group.
Conclusion: Independent acquisition of new chromosomal arms by the sex chromosomes in the
melanica and robusta species groups represents a case of striking convergence at the karyotypic
level. Our findings indicate that the parallel divergence experienced by newly sex-linked genomic
regions in these groups represents an excellent system for studying the tempo of sex chromosome
evolution.