Browsing by Subject "Molecular Evolution"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item Genomic Insights into Sexual Selection and the Evolution of Reproductive Genes in Teleost Fishes(2012-10-19) Small, ClaytonSexual selection has long been a working explanation for the elaboration of appreciable traits in plants and animals, but the idea that it is an equally potent agent of change at the level of individual molecules is relatively recent. Indications that genes associated with reproductive biology evolve especially rapidly planted this notion, but many details about the genomics of sex remain elusive. Numerous studies have characterized rapid sequence and expression divergence of sex-related molecules, but few if any have demonstrated convincingly that these patterns exist as a result of sexual selection. This dissertation describes several genome-scale studies related to reproduction and the sexes in teleost fishes, a group of animals underexploited in regard to this topic. Using commercial microarrays I measured the extent of sexually dimorphic gene expression in the zebrafish, Danio rerio. Sex-biased patterns of gene expression in this species are similar to those described in other animals. A number of genes expressed at high levels in ovaries and testes relative to the body were identified as a product of the study, and these data may be useful for future studies of reproductive genes in Danio fishes. In a second study, the recent advent of high throughput cDNA pyrosequencing was leveraged to characterize the relationships between tissue-, sex-, and species-specific expression patterns of genes and rates of sequence evolution in swordtail fishes (Xiphophorus). I discovered ample evidence for expression biases of all three types, and a generally positive but idiosyncratic relationship between the magnitude of expression bias and rates of protein-coding sequence evolution. Pyrosequencing of cDNA was also used to explore the possibility that postcopulatory sexual selection drives the rapid evolution of male pregnancy genes, a novel class of reproductive molecules unique to syngnathid fishes (seahorses and pipefishes). Genes differentially expressed in the male brooding tissues as a function of pregnancy status evolve more rapidly at the amino acid level than genes exhibiting static expression. Brooding tissue genes expressed during male pregnancy have evolved especially rapidly in polyandrous lineages, a finding that supports the hypothesized relationship between postcopulatory sexual selection and the adaptive evolution of reproductive molecules.Item The evolution of nuclear microsatellite DNA markers and their flanking regions using reciprocal comparisons within the African mole-rats (Rodentia: Bathyergidae)(Texas A&M University, 2006-10-30) Ingram, Colleen MarieMicrosatellites are repetitive DNA characterized by tandem repeats of short motifs (2 ?????? 5 bp). High mutation rates make them ideal for population level studies. Microsatellite allele genesis is generally attributed to strand slippage, and it is assumed that alleles are caused only by changes in repeat number. Most analyses are limited to alleles (electromorphs) scored by mobility only, and models of evolution rarely account for homoplasy in allele length. Additionally, insertion/deletion events (indels) in the flanking region or interruptions in the repeat can obfuscate the accuracy of genotyping. Many investigators use microsatellites, designed for a focal species, to screen for genetic variation in non-focal species. Comparative studies have shown different mutation rates of microsatellites in different species, and even individuals. Recent studies have used reciprocal comparisons to assess the level of polymorphism of microsatellites between pairs of taxa. In this study, I investigated the evolution of microsatellites within a phylogenetic context, using comparisons within the rodent family Bathyergidae. Bathyergidae represents a monophyletic group endemic to sub-Saharan Africa and relationships are well supported by morphological and molecular data. Using mitochondrial and nuclear DNA, a robust phylogeny was generated for the Bathyergidae. From my results, I proposed the new genus, Coetomys. I designed species-specific genotyping and microsatellite flanking sequence (MFS) primers for each genus. Sequencing of the MFS provided direct evidence of the evolutionary dynamics of the repeat motifs and their flanking sequence, including rampant electromorphic homoplasy, null alleles, and indels. This adds to the growing body of evidence regarding problems with genotype scores from fragment analysis. A number of the loci isolated were linked with repetitive elements (LTRs and SINEs), characterized as robust phylogenetic characters. Results suggest that cryptic variation in microsatellite loci are not trivial and should be assessed in all studies. The phylogenetic utility of the nucleotide variation of the MFS was compared to the well-resolved relationships of this family based on the 12S/TTR phylogeny. Variation observed in MFS generated robust phylogenies, congruent with results from 12S/TTR. Finally, a number of the indels within the MFS provided a suite of suitable phylogenetic characters.