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Detecting Sex and Selection in Ancient Cattle Remains Using Single Nucleotide PolymorphismsSvensson, Emma M January 2010 (has links)
All contemporary taurine cattle originated some 10,000 years ago when their wild ancestor, the aurochs, was domesticated in the Near East. Although the aurochs was widespread also in Europe, there is no evidence for a local domestication. The aurochs has been extinct since 1627 and therefore little is known about its biology. Following domestication, cattle were selected for traits of interest to humans. All modern cattle breeds were developed in the 19th century and the only sources of information about prehistoric breeding practices, and breeds, come from a few ancient Roman Empire and medieval European written accounts. The aim for this thesis was to investigate the effects early selection may have had on the cattle genome and to investigate genetic variation in European aurochs. Using second-generation sequencing and coalescent simulation analyses of aurochs Y chromosomal DNA, I estimated effective population size to between 20,000-80,000 aurochs bulls, indicating that a large population was present when domestic cattle entered Europe. A Y chromosomal SNP revealed that the two male lineages present in modern cattle were also present in European aurochs, and that the frequency of these lineages in domestic cattle fluctuated over time. This indicates that cattle were mobile and that bottlenecks, possibly due to selective breeding, occurred. I used nuclear SNPs to trace genetic variation in North European cattle through time and show that when genetics is combined with archaeology and osteology, even small but notable changes in the use of cattle can be detected. There has been a significant decrease in genetic variation over time, with the most dramatic changes associated with the formation of breeds during the 19th century.
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In Reaction to an Ideological Other: Why Secessionism in Scotland is Left WingSotiriu, Sabrina Elena 21 August 2012 (has links)
Secessionist movements have been found historically on both sides of the political spectrum, and sometimes have tried to remain apolitical completely, but because of the rise of partisan politics, secessionism has inevitably become politicized. Variations in Western European secessionism can be noticed, and as such, explanations put forward may be deemed insufficient, or incomplete. In my thesis I tested the hypothesis that secessionism varied on the political spectrum because it has been consolidated against ideological Others (in Scotland against Thatcher’s Conservatives between 1974 and 1990). I tested this methodologically through process tracing and theoretically by looking at the consolidation of the Scottish National Party through reactive nationalism. Specifically I analyzed the nationalist discourse used to justify ideological positioning in the 1970s and 1980s in propaganda materials and archival documents, and if and how this ideological choice was reflected or interpreted in newspapers (for opinions on how this consolidation was perceived by the electorate).
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The Molecular Characterization of Head and Neck Cancer in Young PatientsMachado, Jerry 31 August 2010 (has links)
Head and neck squamous cell carcinomas (HNSCCs) most commonly develop in older patients (≥60 years of age) with a history of tobacco and alcohol use. However, young individuals (≤45 years of age) can also develop HNSCC, often without common risk factors. Increasing evidence shows that Human Papillomavirus (HPV) infection is
associated with particular HNSCC sites (e.g. oropharynx). We assessed the Roche Linear Array HPV Genotyping Test in several lesions and then examined the prevalence of HPV in HNSCCs from young and older patients. HPV infection was most prevalent in oropharyngeal cancers (16/22, 73%), rarely found in oral cavity cancers (2/53, 4%), and other head and neck sites (1/17, 6%). HPV positive tumors were associated with patients that were >40 and <60 years old (p=0.02).
The absence or shortened time of carcinogen exposure from common risk factors and the development of oral squamous cell carcinoma (OSCC) at an early age suggest
aberrant genetic events that are different than those in OSSCs from older patients. We used Affymetrix SNP 6.0 arrays to genomically profile oral tumors from young and older patients. Tumors from young patients showed different regions/genes of copy number alterations than those from older patient tumors. An increase of regions of loss of heterozygosity (LOH) in tumors from older patients was observed, and there was a high prevalence of copy number neutral LOH on chromosome 9 in tumors from young and older patients. These data suggest different genetic mechanisms in these patient groups.
We have previously shown that HNSCCs from younger patients exhibited a high incidence of microsatellite instability (MSI), a marker of defective mismatch repair
(MMR). Deregulated mRNA levels of hPMS1, hPMS2 and hMLH1 were observed and absent/low expression of hPMS1, hPMS2 and hMLH1 protein levels were observed in
>50% of OSCCs. No mutations were observed in hPMS1 and hPMS2 and no significant differences of MSI or LOH were observed across genomic loci between tumors of young and older patients. The role of these genetic mechanisms in oral cancer appears complex; studies such as ours should further improve our knowledge of the molecular mechanisms leading to early-onset oral carcinomas.
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Discrete Algorithms for Analysis of Genotype DataBrinza, Dumitru 29 June 2007 (has links)
Accessibility of high-throughput genotyping technology makes possible genome-wide association studies for common complex diseases. When dealing with common diseases, it is necessary to search and analyze multiple independent causes resulted from interactions of multiple genes scattered over the entire genome. The optimization formulations for searching disease-associated risk/resistant factors and predicting disease susceptibility for given case-control study have been introduced. Several discrete methods for disease association search exploiting greedy strategy and topological properties of case-control studies have been developed. New disease susceptibility prediction methods based on the developed search methods have been validated on datasets from case-control studies for several common diseases. Our experiments compare favorably the proposed algorithms with the existing association search and susceptibility prediction methods.
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Investigation Of Schizophrenia Related Genes And Pathways Through Genome Wide Association StudiesDom, Huseyin Alper 01 January 2013 (has links) (PDF)
Schizophrenia is a complex mental disorder that is commonly characterized as deterioration of intellectual process and emotional responses and affects 1% of any given population. SNPs are single nucleotide changes that take place in DNA sequences and establish the major percentage of genomic variations. In this study, our goal was to identify SNPs as genomic markers that are related with schizophrenia and investigate the genes and pathways that are identified through the analysis of SNPs. Genome wide association studies (GWAS) analyse the whole genome of case and control groups to identify genetic variations and search for related markers, like SNPs. GWASs are the most common method to investigate genetic causes of a complex disease such as
v
schizophrenia because regular linkage studies are not sufficient. Out of 909,622 SNPs analysis of the dbGAP Schizophrenia genotyping data identified 25,555 SNPs with a p-value 5x10-5. Next, combined p-value approach to identify associated genes and pathways and AHP based prioritization to select biologically relevant SNPs with high statistical association are used through METU-SNP software. 6,000 SNPs had an AHP score above 0.4, which mapped to 2,500 genes suggested to be associated with schizophrenia and related conditions. In addition to previously described neurological pathways, pathway and network analysis showed enrichment of two pathways.
Melanogenesis and vascular smooth muscle contraction pathways were found to be highly associated with schizophrenia. We have also shown that these pathways can be organized in one biological network, which might have a role in the molecular etiology of schizophrenia. Overall analysis results revealed two novel candidate genes SOS1 and GUCY1B3 that have a possible relation with schizophrenia.
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The Molecular Characterization of Head and Neck Cancer in Young PatientsMachado, Jerry 31 August 2010 (has links)
Head and neck squamous cell carcinomas (HNSCCs) most commonly develop in older patients (≥60 years of age) with a history of tobacco and alcohol use. However, young individuals (≤45 years of age) can also develop HNSCC, often without common risk factors. Increasing evidence shows that Human Papillomavirus (HPV) infection is
associated with particular HNSCC sites (e.g. oropharynx). We assessed the Roche Linear Array HPV Genotyping Test in several lesions and then examined the prevalence of HPV in HNSCCs from young and older patients. HPV infection was most prevalent in oropharyngeal cancers (16/22, 73%), rarely found in oral cavity cancers (2/53, 4%), and other head and neck sites (1/17, 6%). HPV positive tumors were associated with patients that were >40 and <60 years old (p=0.02).
The absence or shortened time of carcinogen exposure from common risk factors and the development of oral squamous cell carcinoma (OSCC) at an early age suggest
aberrant genetic events that are different than those in OSSCs from older patients. We used Affymetrix SNP 6.0 arrays to genomically profile oral tumors from young and older patients. Tumors from young patients showed different regions/genes of copy number alterations than those from older patient tumors. An increase of regions of loss of heterozygosity (LOH) in tumors from older patients was observed, and there was a high prevalence of copy number neutral LOH on chromosome 9 in tumors from young and older patients. These data suggest different genetic mechanisms in these patient groups.
We have previously shown that HNSCCs from younger patients exhibited a high incidence of microsatellite instability (MSI), a marker of defective mismatch repair
(MMR). Deregulated mRNA levels of hPMS1, hPMS2 and hMLH1 were observed and absent/low expression of hPMS1, hPMS2 and hMLH1 protein levels were observed in
>50% of OSCCs. No mutations were observed in hPMS1 and hPMS2 and no significant differences of MSI or LOH were observed across genomic loci between tumors of young and older patients. The role of these genetic mechanisms in oral cancer appears complex; studies such as ours should further improve our knowledge of the molecular mechanisms leading to early-onset oral carcinomas.
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Development of molecular markers for marker assisted selection for seed quality traits in oilseed rapeRahman, Md. Mukhlesur 28 September 2007 (has links)
Molecular markers for seed quality traits including erucic acid content genes, seed coat color genes in Brassica napus and seed coat color genes in B. rapa were developed. A single base change in the Bn-FAE1.1 gene in the A genome and a two-base deletion in the Bn-FAE1.2 gene in the C genome produce the nearly zero content of erucic acid observed in canola. The single base change was detected as single nucleotide polymorphic (SNP) marker with an ABI SNaPshot kit. A multiplexing primer set was designed by adding a polyT to the 5´ primer end to increase SNP detection throughput through sample pooling. The two-base deletion in the C genome gene was detected as a sequence characterized amplified region (SCAR) marker in an ABI 3100 Genetic analyzer. To increase the throughput, one genome specific primer was labeled with four fluorescence dyes and combined with 20 different primers to produce PCR products with different fragment sizes. These multiplexed high throughput molecular markers have been successfully implemented in our canola/rapeseed breeding programs. Trigenic inheritance was observed for seed coat color in B. napus. Three Sequenced Related Amplified Polymorphism (SRAP) markers very closely linked to the three different seed coat color genes were developed. Chromosome-walking technology was used to convert the SRAP marker into a SCAR marker and a SNP marker. Subsequently, the first seed coat color gene (Bn1) marker was converted into a SCAR marker, and the second seed coat color gene (Bn2) marker was converted into a SNP marker. Digenic inheritance was observed for seed coat color genes in B. rapa. A SRAP marker was identified as being tightly linked to the major seed coat color gene (Br1). The SRAP marker was sequenced and extended sequences were obtained using chromosome-walking technology. The flanking sequences of the SRAP marker contained 24 SNPs and a 12-bp deletion position that allowed the marker to be converted into a co-dominant SNP marker and a co-dominant SCAR marker, respectively. The SCAR marker was detected in the ABI 3100 genetic analyzer with four fluorescently labeled M13 primers integrated with different SCAR primers, which permitted pooling of PCR samples for high throughput detection. / October 2007
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Defining Ankyrin-b Syndrome: Characterization of Ankyrin-b Variants in Mice and Men and the Discovery of a Role for Ankyrin-b in Parasympathetic Control of Insulin ReleaseHealy, Jane Anne January 2009 (has links)
<p>Studies in the ankyrin-B+/- mouse reveal that ankyrin-B deficiency is associated with both the benefits of enhanced cardiac contractility and the costs of arrhythmia, early senescence, reduced lifespan, and impaired glucose tolerance. This constellation of traits is known as ankyrin-B syndrome, which may have important implications for humans possessing functional ankyrin-B mutations. We found that ankyrin-B variants are surprisingly common, ranging from 2 percent of European individuals to 8 percent in individuals from West Africa. Furthermore, by studying of the metabolic phenotype associated with ankyrin-B mouse, we have uncovered a major new dimension to ankyrin-B syndrome, a link between ankyrin-B and parasympathetic control of insulin secretion. Stimulation of pancreatic beta cells by acetylcholine augments glucose-stimulated insulin secretion by inducing inositol-trisphosphate receptor (InsP3R)-mediated Ca2+ release. We report that ankyrin-B is also enriched in pancreatic beta cells. Ankyrin-B-deficient islets display impaired potentiation of insulin secretion by the muscarinic agonist carbachol, blunted carbachol-mediated intracellular Ca2+- release, and reduced InsP3R stability. Ankyrin-B(+/-) mice also display postprandial hyperglycemia, consistent with impaired parasympathetic potentiation of glucose-stimulated insulin secretion. R1788W mutation of ankyrin-B impairs its function in pancreatic islets and associates with type 2 diabetes in Caucasians and Hispanics. Finally, we have generated knockin mice corresponding to the R1788W and L1622I mutations. Functional characterization of these animals will allow us to better understand the relationship between human ankyrin-B variants and ankyrin-B syndrome.</p> / Dissertation
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Development of SCAR marker linked to a root-knot nematode resistant gene in peanutYang, Hee Jeong 15 November 2004 (has links)
Root-knot disease caused by Meloidogyne spp. is the most important nematode disease of peanut. Even though many management strategies have been applied to control this disease on peanut, resistance is the most recommendable. Marker-assisted selection has been used as a useful tool for screening of resistant individuals in segregating populations. However, it requires many laborious steps. Thus, there is a need for PCR - based markers, which are more practical, rapid, and efficient.
In this study, we tried to develop a SCAR marker linked to root-knot nematode resistance locus in peanut based on the RFLP marker R2430E. The entire sequence of R2430E was 2217 bp and contained one putative open reading frame (ORF) of 713 nucleotides. Thirteen primers including 5 forward and 8 reverse primers were synthesized to sequence the entireR2430E. Based on the results of BLAST searches, R2430E appeared to encode an AAA ATPase containing von Willebrand factor type A (VWA) domain from Magnetococcus sp. MC-1 (106 bits).
To determine if there is a portion of the R2430E that hybridizes only to a band co-segregating with the resistance locus, we generated 4 probes spanning different parts of the gene. Southern analysis using these probes revealed identical banding patterns for each probe. Therefore, we concluded that there is very limited if any sequence polymorphism between different alleles detected by the R2430E probe. Additionally, this conclusion is supported by the experiment in which we tested 25 primer pairs derived from the R2430E using genomic DNA from both resistance and susceptible genotypes. In this experiment, all primer pairs amplified identical PCR fragments, suggesting again that there is little or no sequence divergence between putative alleles as differentiated by southern blotting.
To identify possible single nucleotide polymorphisms (SNPs) between polymorphic R2430E RFLP bands, we cloned several fragments that span the entire R2430E transcribed sequence. Surprisingly, no SNPs were identified in the transcribed region of this gene. We propose that polymorphism detected by this RFLP marker is outside of the R2430E.
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Characterization and Mapping of the Gene Conferring Resistance to Rift Valley Fever Virus Hepatic Disease in WF.LEW RatsCallicott, Ralph J. 14 January 2010 (has links)
Rift Valley Fever Virus is a plebovirus that causes epidemics and epizootics in sub-Saharan African countries but has expanded to Egypt and the Arabian Peninsula. The laboratory rat (Rattus norvegicus) is susceptible to RVFV and has been shown to manifest the characteristic responses of humans and livestock. The rat has frequently been used as a model to study RVFV pathogenesis. Several strains have been infected and some found to be resistant to hepatic disease while others were not. This resistance was found to be associated with a dominant gene inherited in Mendelian fashion. The congenic rat strain WF.LEW and several substrains of the parental strains were used to try and locate the resistance gene. Microsatellites and single nucleotide polymorphisms were used to characterize the genomes of various rat substrains in an attempt to map the gene. Breeding and viral challenge experiments were used to further characterize the strains and assign a location to the resistance gene.
The LEW/SsNHsd rats showed approximately 37% genomic difference as compared with LEW/MolTac rats, and 8% difference as compared with LEW/Crl rats. WF/NHsd rats demonstrated a difference of approximately 8% as compared with WF/CrCrl rats. Genotyping of the congenic WF.LEW revealed Lewis markers on RNO3 and RNO9. Subsequent backcross experiments and viral challenge experiments assigned the resistance gene to the distal end of RNO3.
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