Random non-coding fragments of lizard DNA: anonymous nuclear loci for the Australian skink, Tiliqua rugosa, and their utility in other Egernia-group species

2014 ◽  
Vol 62 (6) ◽  
pp. 515 ◽  
Author(s):  
Talat Hojat Ansari ◽  
Terry Bertozzi ◽  
Jessica Hacking ◽  
Steven J. B. Cooper ◽  
Michael G. Gardner
Keyword(s):  
Related Species ◽  
Population Genetic ◽  
454 Sequencing ◽  
Anonymous Nuclear Loci ◽  
Tiliqua Rugosa ◽  
Nuclear Loci ◽  
Western Australian ◽  
Group Species ◽  
Egernia Stokesii ◽  
Population Genetic Analyses

We report the development of 48 anonymous nuclear loci from the Australian skink Tiliqua rugosa using 454 sequencing. These loci amplified across a Western Australian lineage (47 loci), a ‘northern’ lineage (48 loci) and a ‘southern’ lineage (46 loci). We further tested amplification for the related T. adelaidensis and Egernia stokesii where 37 and 34 loci amplified respectively. The loci showed variability within T. rugosa (22 polymorphic loci) and at least 27 loci also exhibited variation among the three species, highlighting the usefulness of these markers for phylogenetic, phylogeographic and population genetic analyses in T. rugosa and related species.

scholarly journals Repeated evolution of asymmetric genitalia and right-sided mating behavior in theDrosophila nannopteraspecies group

2019 ◽  
Author(s):  
Andrea Acurio ◽  
Flor T. Rhebergen ◽  
Sarah Paulus ◽  
Virginie Courtier-Orgogozo ◽  
Michael Lang
Keyword(s):  
Related Species ◽  
Current Data ◽  
The Other ◽  
Genital Morphology ◽  
Closely Related Species ◽  
Outgroup Species ◽  
Repeated Evolution ◽  
Drosophila Pachea ◽  
Species Specific ◽  
Group Species

AbstractBackgroundMale genitals have repeatedly evolved left-right asymmetries, and the causes of such evolution remain unclear. TheDrosophila nannopteragroup contains four species, among which three exhibit left-right asymmetries of distinct genital organs. In the most studied species,Drosophila pachea, males display asymmetric genital lobes and they mate right-sided on top of the female. Copulation position of the other species is unknown.ResultsTo assess whether the evolution of genital asymmetry could be linked to the evolution of one-sided mating, we examined phallus morphology and copulation position inD. pacheaand closely related species. The phallus was found to be symmetric in all investigated species exceptD. pachea, which display an asymmetric phallus with a right-sided gonopore, andD. acanthoptera, which harbor an asymmetrically bent phallus. In all examined species, males were found to position themselves symmetrically on top of the female, except inD. pacheaandD. nannoptera, where males mated right-sided, in distinctive, species-specific positions. In addition, the copulation duration was found to be increased innannopteragroup species compared to closely related outgroup species.ConclusionOur study shows that gains, and possibly losses, of asymmetry in genital morphology and mating position have evolved repeatedly in thenannopteragroup. Current data does not allow us to conclude whether genital asymmetry has evolved in response to changes in mating position, or vice versa.

scholarly journals The speciation history of the Drosophila nasuta complex

2006 ◽  
Vol 88 (1) ◽  
pp. 13-26 ◽  
Author(s):  
DORIS BACHTROG
Keyword(s):  
Genetic Differentiation ◽  
Population Genetic ◽  
Species Group ◽  
Similar Species ◽  
Nucleotide Polymorphisms ◽  
Effective Population ◽  
Genetic Analyses ◽  
Nucleotide Variability ◽  
Drosophila Nasuta ◽  
Population Genetic Analyses

The Drosophila nasuta subgroup of the immigrans species group is widely distributed throughout the South-East Asian region, consisting of morphologically similar species with varying degrees of reproductive isolation. Here, I report nucleotide variability data for five X-linked and two mtDNA loci in eight taxa from the nasuta subgroup, with deeper sampling from D. albomicans and its sister species D. nasuta. Phylogenetic relationships among these species vary among different genomic regions, and levels of genetic differentiation suggest that this species group diversified only about one million years ago. D. albomicans and D. nasuta share nucleotide polymorphisms and are distinguished by relatively few fixed differences. Patterns of genetic differentiation between this species pair are compatible with a simple isolation model with no gene flow. Nucleotide variability levels of species in the nasuta group are comparable to those in members of the melanogaster and pseudoobscura species groups, indicating effective population sizes on the order of several million. Population genetic analyses reveal that summaries of the frequency distribution of neutral polymorphisms in both D. albomicans and D. nasuta generally fit the assumptions of the standard neutral model. D. albomicans is of particular interest for evolutionary studies because of its recently formed neo-sex chromosomes, and our phylogenetic and population genetic analyses suggest that it might be an ideal model to study the very early stages of Y chromosome evolution.

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