Evaluating the validity of subspecies classifications: a case study of intraspecific genetic variation in the prairie vole (<i>Microtus ochrogaster</i>)

Adams, Nicole Elizabeth

20 August 2013

No description available.

Zoology

Animals

Biology

Genetics

Systematic

Evolution and Development

genetic diversity

microsatellite

Microtus ochrogaster

molecular systematics

molecular taxonomy

prairie vole

subspecies

Phylogenetic relationships, systematics, character-associateddiversification, and chloroplast genome evolution in <i>Asarum</i>(Aristolochiaceae).

Sinn, Brandon Tyler

January 2015

No description available.

Biology

Evolution and Development

Botany

Plant Biology

Genetics

Plant Sciences

Diversification in the Neotropics: Insights from Demographic and Phylogenetic Patternsof Lancehead Pitvipers (<i>Bothrops</i> spp.)

Salazar Valenzuela, Christian David

12 October 2016

No description available.

Evolution and Development

Ecology

Zoology

Conservation genetics

cryptic biodiversity

historical demography

lancehead pitvipers

morphology

multispecies coalescent

Neotropics

phylogenomics

phylogeography

Tropical Andes

Macroevolutionary Impact of Selective Brain Cooling on the Mammalian Order Artiodactyla

O'Brien, Haley D.,

22 September 2016

No description available.

Anatomy and Physiology

Biology

Evolution and Development

Paleontology

Artiodactyla

Carotid Rete

Ruminantiamorpha

Pecora

Tylopoda

Suinamorpha

Selective Brain Cooling

Mammalian Macroevolution

Song variation, song learning, and cultural change in two hybridizing songbird species, black-capped (<i>Poecile atricapillus</i>) and Carolina (<i>P. carolinensis</i>) chickadees

Nelson, Stephanie Gene Wright, Nelson

30 December 2016

No description available.

Biology

Ecology

Evolution and Development

Zoology

birdsong

song learning

vocal learning

chickadees

black-capped chickadee

Carolina chickadee

geographic variation

Paridae

hybridization

Phylogenetic Paleobiology: Phenotypic Diversification and Evolutionary Radiation in Paleozoic Crinoids

Wright, David F.

January 2016

No description available.

Paleontology

Evolution and Development

Geology

paleontology

paleobiology

phylogeny

phylogenetics

Crinoidea

Echinodermata

Bayesian

disparity, taxonomy

systematics

homology

morphological evolution

Bird Balloon Bones: The Evolution of Postcranial Skeletal Pneumaticity in Birds and itsRelationship with Skeletal Form and Function

Gutherz, Samuel Benjamin

16 September 2022

No description available.

Animals

Biology

Comparative

Morphology

Evolution and Development

Scientific Imaging

Zoology

pneumaticity

bird

evolution

body size

skeleton

functional morphology

bone

The developmental and evolutionary roles of isoforms of regulator of G protein signalling 3 in neuronal differentiation

Fleenor, Stephen

January 2014

Fundamental to the complexity of the nervous system is the precise regulation in space and time of the production, maturation, and migration of neurons in the developing embryo. This is eloquently seen in the forming cranial sensory ganglia (CSG) of the peripheral nervous system. Placodes, which are transient pseudostratified neuroepithelia in the surface ectoderm of the embryo, are responsible for generating most of the neurons of the CSG. Placodal progenitors commit to the neuronal fate and delaminate from the epithelium as immature, multipolar neuroblasts. These neuroblasts reside in a staging area immediately outside the placode. Differentiation of the neuroblasts is intimately coupled to their adoption of a bipolar morphology and migration away from the staging area to the future site of the CSG. Thus the forming CSG is a highly tractable model to anatomically separate the three phases of a neuroblast’s lifetime: from neuroepithelial progenitor (in the placode), to immature neuroblast (in the staging area), to mature neuron (in the migratory stream). In this thesis, I used the forming CSG as a model to investigate the role of Regulator of G protein Signalling 3 (RGS3) in neuroblast commitment and differentiation. Promoters within introns of the RGS3 locus generate isoforms in which N-terminal sequences are sequentially truncated, but C-terminal sequences are preserved. Intriguingly, I found that expression of these isoforms in the forming CSG is temporally co-linear with their genomic orientation: longer isoforms are exclusively expressed in the progenitor placode; a medium isoform is expressed exclusively in the neuroblast staging area; and the shortest isoforms are expressed in the neuronal migratory stream. Furthermore, through loss- and gain-of-function experiments, I demonstrated that each of these isoforms plays a specific role in the differentiation state in which it is expressed: placode-expressed isoforms negatively regulate neurogenesis; the neuroblast-expressed isoform negatively regulates differentiation; and the neuron-expressed isoforms negatively regulate neuronal migration. The negative regulatory role which all isoforms play in different cell-biological contexts is intriguing in light of the fact that they all share a C-terminal RGS domain, which canonically negatively regulates G protein signalling. Through domain mutation and deletion, I showed that the RGS and N-terminal domains are important for the function of each isoform. Thus temporally co-linear expression within the RGS3 locus generates later-expressed isoforms which lack the regulatory N-terminal domains of the earlier-expressed isoforms, giving them new license to perform different biochemical functions. Lastly, I investigated the conservation and evolution of RGS3 and its isoforms. RGS3 was found to be present in all extant metazoans, and results from this thesis implicate it as the founding member of the R4 subfamily of RGS proteins. Furthermore, in the early vertebrate lineage, a critical domain was lost. This is intriguing in light of the fact that placodes in their stereotypic forms also emerged early in the vertebrate lineage. Ectopic overexpression of the full-length invertebrate RGS3 protein prevented pseudostratification of the vertebrate placode, suggesting that the domain loss in the early vertebrate lineage was important for the evolution of pseudostratified placodes and the expansion of the vertebrate nervous system. In summary, the work in this thesis has uncovered a previously unseen model of transcriptional regulation of a single locus: intragenic temporal co-linearity. Furthermore, the demonstrated functions of this regulation have profound implications on the generation and differentiation of vertebrate neurons, as well as the evolution of the vertebrate nervous system.

612.8

The Influence of Genetic Variation on Susceptibility of Common Bottlenose Dolphins (<italic>Tursiops truncatus</italic>) to Harmful Algal Blooms

Cammen, Kristina Marstrand

January 2014

<p>The capacity of marine organisms to adapt to natural and anthropogenic stressors is an integral component of ocean health. Harmful algal blooms (HABs), which are one of many growing threats in coastal marine ecosystems, represent a historically present natural stressor that has recently intensified and expanded in geographic distribution partially due to anthropogenic activities. In the Gulf of Mexico, HABs of <italic>Karenia brevis</italic> occur almost annually and produce neurotoxic brevetoxins that have been associated with large-scale mortality events of many marine species, including the common bottlenose dolphin (<italic>Tursiops truncatus</italic>). The factors resulting in large-scale dolphin mortality associated with HABs are not well understood, particularly in regards to the seemingly different impacts of HABs in geographically disjunct dolphin populations. My dissertation investigates a genetic basis for resistance to HABs in bottlenose dolphins in central-west Florida and the Florida Panhandle. I used both genome-wide and candidate gene approaches to analyze genetic variation in dolphins that died putatively due to brevetoxicosis and live dolphins from the same geographic areas that survived HAB events. Using restriction site-associated DNA sequencing, I identified genetic variation that suggested both a common genetic basis for resistance to HABs in bottlenose dolphins across the Gulf coast of Florida and regionally specific resistance. Many candidate genes involved in the immune, nervous, and detoxification systems were found in close genomic proximity to survival-associated polymorphisms throughout the bottlenose dolphin genome. I further investigated two groups of candidate genes, nine voltage-gated sodium channel genes selected because of their putative role in brevetoxin binding and four major histocompatibility complex (MHC) loci selected because of their genomic proximity to a polymorphism exhibiting a strong association with survival. I found little variation in the sodium channel genes and conclude that bottlenose dolphins have not evolved resistance to HABs via mutations in the toxin binding site. The immunologically relevant MHC loci were highly variable and exhibited patterns of genetic differentiation among geographic regions that differed from neutral loci; however, genetic variation at the MHC also could not fully explain variation in survival of bottlenose dolphins exposed to HABs. In my final chapter, I consider the advantages and drawbacks of the genome-wide approach in comparison to a candidate gene approach and, as laid out in my dissertation, I recommend using both complementary approaches in future investigations of adaptation in genome-enabled non-model organisms.</p> / Dissertation

Ecology

Evolution & development

Genetics

bottlenose dolphin

harmful algal bloom

Karenia brevis

major histocompatibility complex

RAD sequencing

voltage-gated sodium channel

Identity and Professional Trajectories of Eastern European Immigrant Women in the United States

January 2014

abstract: The immigration process changes personal narratives and professional trajectories and challenges identities and individual beliefs. Yet there is currently limited research on European women immigrants' transitions in the United States. This study examines personal and professional trajectories, in the United States, of Eastern European immigrant (EEI) women with prior educational attainment in their country of origin. This study examines the following issues: personal/social learning, developmental and professional experiences prior to and post migration, and social lives after the women's arrival in the United States. The study discusses the results of in-depth interviews with eight EEI women living in Arizona and California and recounts these women's life stories, gathered through open-ended questions that focused on areas of their personal and professional lives, such as childhood, marriage, immigration, education, family relations, socio-economic status, employment, child- rearing, and other significant life events. These areas impacted the women's creation of personal beliefs and their ability to develop new identities in the United States. The study examines EEI women's identity constructions within their life trajectory narratives. / Dissertation/Thesis / Ph.D. Educational Psychology 2014

Evolution & development

Women's studies

East European studies

Eastern European

Immigrant Women

personal narratives

personal/social learning

Professional Trajectories