Sequence variation in the guillemot (Alcidae: Cepphus) mitochondrial control region and its nuclear homolog

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ORIGINAL ARTICLE

Sequence variation in the guillemot (Alcidae: Cepphus) mitochondrial control region and its nuclear homolog

MG Kidd and VL Friesen
Department of Biology, Queen's University, Kingston, Ontario, Canada.

We describe sequence variation in the mitochondrial control region and its nuclear homolog in three species and seven subspecies of guillemots (Cepphus spp.). Nuclear homologs of the 5' end of the control region were found in all individuals. Nuclear sequences were approximately 50% divergent from their mitochondrial counterparts and formed a distinct phylogenetic clade; the mitochondrial-nuclear introgression event must have predated the radiation of Cepphus. As in other vertebrates, the guillemot control region has a relatively conserved central block flanked by hypervariable 5' and 3' ends. Mean pairwise interspecific divergence values among control regions were lower than those in other birds. All individuals were heteroplasmic for the number of simple tandem nucleotide repeats (A(n)C) at the 3' end of the control region. Phylogenetic analyses suggest that black guillemots are basal to pigeon and spectacled guillemots, but evolutionary relationships among subspecies remain unresolved, possibly due to incomplete lineage sorting. Describing molecular variation in nuclear homologs of mitochondrial genes is of general interest in phylogenetics because, if undetected, the homologs may confound interpretations of mitochondrial phylogenies.
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Molecular Biology and Evolution

ORIGINAL ARTICLE

Sequence variation in the guillemot (Alcidae: Cepphus) mitochondrial control region and its nuclear homolog