20 research outputs found
Next-Generation Phylogeography: A Targeted Approach for Multilocus Sequencing of Non-Model Organisms
The field of phylogeography has long since realized the need and utility of incorporating nuclear DNA (nDNA) sequences into analyses. However, the use of nDNA sequence data, at the population level, has been hindered by technical laboratory difficulty, sequencing costs, and problematic analytical methods dealing with genotypic sequence data, especially in non-model organisms. Here, we present a method utilizing the 454 GS-FLX Titanium pyrosequencing platform with the capacity to simultaneously sequence two species of sea star (Meridiastra calcar and Parvulastra exigua) at five different nDNA loci across 16 different populations of 20 individuals each per species. We compare results from 3 populations with traditional Sanger sequencing based methods, and demonstrate that this next-generation sequencing platform is more time and cost effective and more sensitive to rare variants than Sanger based sequencing. A crucial advantage is that the high coverage of clonally amplified sequences simplifies haplotype determination, even in highly polymorphic species. This targeted next-generation approach can greatly increase the use of nDNA sequence loci in phylogeographic and population genetic studies by mitigating many of the time, cost, and analytical issues associated with highly polymorphic, diploid sequence markers
Comprehensive Primer Design for Analysis of Population Genetics in Non-Sequenced Organisms
Nuclear sequence markers are useful tool for the study of the history of populations and adaptation. However, it is not easy to obtain multiple nuclear primers for organisms with poor or no genomic sequence information. Here we used the genomes of organisms that have been fully sequenced to design comprehensive sets of primers to amplify polymorphic genomic fragments of multiple nuclear genes in non-sequenced organisms. First, we identified a large number of candidate polymorphic regions that were flanked on each side by conserved regions in the reference genomes. We then designed primers based on these conserved sequences and examined whether the primers could be used to amplify sequences in target species, montane brown frog (Rana ornativentris), anole lizard (Anolis sagrei), guppy (Poecilia reticulata), and fruit fly (Drosophila melanogaster), for population genetic analysis. We successfully obtained polymorphic markers for all target species studied. In addition, we found that sequence identities of the regions between the primer sites in the reference genomes affected the experimental success of DNA amplification and identification of polymorphic loci in the target genomes, and that exonic primers had a higher success rate than intronic primers in amplifying readable sequences. We conclude that this comparative genomic approach is a time- and cost-effective way to obtain polymorphic markers for non-sequenced organisms, and that it will contribute to the further development of evolutionary ecology and population genetics for non-sequenced organisms, aiding in the understanding of the genetic basis of adaptation
Intron analyses reveal multiple calmodulin copies in Littorina
Intron three and the flanking exons of the calmodulin gene have been amplified, cloned and sequenced from 18 members of the gastropod genus Littorina. From the 48 sequences, at least five different gene copies have been identified and their functionality characterized using a strategy based upon the potential protein product predicted from flanking exon data. The functionality analyses suggest that four of the genes code for functional copies of calmodulin. All five copies have been identified across a wide range of littorinid species although not ubiquitously. Using this novel approach based on intron sequences, we have identified an unprecedented number of potential calmodulin copies in Littorina, exceeding that reported for any other invertebrate. This suggests a higher number of, and more ancient, gene duplications than previously detected in a single genus
Genetic diversity and differentiation of three Brazilian populations of Scarlet ibis (Eudocimus ruber)
The possible origin of the Scarlet ibis population of Cubatão in southern Brazil, and its levels of genetic diversity and differentiation in relation to populations from the country’s northern coast were investigated through the sequences of 980 base pairs of β-fibrinogen intron 7 from a sample of 37 specimens. A total of 19 haplotypes were recorded in the three populations. Despite observed discrepancies in the levels of genetic diversity (π = 0.0017–0.0033; h = 0.60–0.95), AMOVA, K*st and Fst values all indicated that genetic differentiation among the populations was relatively low. This suggests that the Cubatão population was isolated recently from the panmictic population that was once distributed all along the Brazilian coast, although it does not totally refute its possible derivation from a specific population on the north coast. Given our results, genetic management should focus on the minimization of inbreeding, especially in the smaller populations, such as Cubatão. However, a more definitive study, including markers with higher evolutionary rates (e.g. microsatellites) and a much larger sample, would be required before any such actions can be taken