Global ETD Search

131	Phylogeographic Structure and Genetic Variation in <i>Formica</i> Ants Goropashnaya, Anna January 2003 (has links) <p>The aim of this thesis is to study phylogeny, species-wide phylogeography and genetic diversity in <i>Formica</i> ants across Eurasia in connection with the history of biotic responses to Quaternary environmental changes.</p><p>The mitochondrial DNA phylogeny of Palaearctic <i>Formica</i> species supported the subgeneric grouping based on morphological similarity. The exception was that <i>F. uralensis</i> formed a separate phylogenetic group. The mitochondrial DNA phylogeny of the <i>F. rufa </i>group showed the division into three major phylogenetic groups: one with the species <i>F. polyctena</i> and <i>F. rufa</i>, one with <i>F. aquilonia</i>, <i>F. lugubris</i> and <i>F. paralugubris</i>, and the third one with <i>F. pratensis</i>.</p><p>West-east phylogeographic divisions were found in <i>F. pratensis</i> suggesting post-glacial colonization of western Europe and a wide area from Sweden to the Baikal Lake from separate forest refugia. In contrast, no phylogeographic divisions were detected in either <i>F. lugubris </i>or<i> F. exsecta</i>. Contraction of the distribution range to a single refugial area during the late Pleistocene and the following population expansion could offer a general explanation for the lack of phylogeographic structure across most of Eurasia in these species.</p><p>Sympatrically distributed and ecologically similar species <i>F. uralensis </i>and<i> F. candida</i> showed clear difference in the phylogeographic structure that reflected difference in their vicariant history. Whereas no phylogeographic divisions were detected in <i>F. uralensis</i> across Europe, <i>F. candida</i> showed a well-supported phylogeographic division between the western, the central and the southern group.</p><p>In socially polymorphic <i>F. cinerea</i>, the overall level of intrapopulation microsatellite diversity was relatively high and differentiation among populations was low, indicating recent historical connections. The lack of correspondence between genetic affinities and geographic locations of studied populations did not provide any evidence for differentiating between alternative hypotheses concerning the directions and sources of postglacial colonization of Fennoscandia.</p> Genetics Formica ants phylogeography phylogeny Pleistocene refugia population expansion social organization Genetik Clinical genetics Klinisk genetik
132	The Functional Significance and Chromatin Organisation of the Imprinting Control Regions of the <i>H19</i> and <i>Kcnq1</i> Genes Kanduri, Meena January 2004 (has links) <p>Genomic imprinting is a phenomenon through which a subset of genes are epigenetically marked during gemtogenisis. This mark is maintained in the soma to often manifest parent of origin-specific monoalleleic expresson patterns. Genetics evidence suggests that gene expression patterns in mprinted genes, which are frequently organised in clusters, are regulated by the imprinting control regions (ICR). This thesis is mainly focused on the mechanisms through which the ICRs control the imprinting in the cluster, containing the <i>Kcnq1, Igf2</i> and <i>H19</i> genes, located at the distal end of mouse chromosome 7.</p><p>The <i>H19</i> ICR, located in the 5' flank of the <i>H19</i> gene represses paternal <i>H19</i> and maternal <i>Igf2</i> expression, respectively, but has no effect on <i>Kcnq1</i> expression, which is controlled by another ICR located at the intron 10 of the <i>Kcnq1</i> gene. This thesis demonstrates that the maternal <i>H19</i> ICR allele contains several DNase I hypersensitive sites, which map to target sites for the chromatin insulator protein CTCF at the linker regions between the positioned nucleosomes. The thesis demonstrates that the <i>H19</i> ICR acts as a unidirectional insulator and that this property invovles three nucleosome positioning sites facilitating interaction between the <i>H19</i> ICR and CTCF. The <i>Kcnq1</i> ICR function is much more complex, since it horbours both lineage-specific silencing functions and a methylation sensitive unidirectional chromatin insulator function. Importantly, the thesis demonstrates that the <i>Kcnq1</i> ICR spreads DNA methylation into flanking region only when it is itself unmethylated. Both the methylation spreading and silencing functions map to the same regions.</p><p>In conclusion, the thesis has unraveled and unrivalled complexity of the epigenetic control and function of short strtches of sequences. The epigenetic status of these cis elements conspires to control long-range silencing and insulation. The manner these imprinting control regions can cause havoc in expresson domains in human diseases is hence emerging.</p> Molecular genetics DNA methylation Imprinting control region Chromatin Insulator Nucleosome positioning Genetik Genetics Genetik
133	Evolutionary Studies of the Mammalian Y Chromosome Hellborg, Linda January 2004 (has links) <p>Sex chromosomes are useful in elucidating the evolutionary factors affecting diversity and divergence. In particular, Y chromosome analyses may complement studies using mitochondrial DNA for inferring sex-specific population genetic processes.</p><p>Y chromosome studies have been scarce due to limited access to genetic markers and the dynamic evolution of Y. Conserved Y-specific primers that could amplify a diverse set of mammalian species were developed from comparison of gametologous X and Y sequences. Y-specific sequence, generally more than one kb, was amplified for all 20 species examined.</p><p>Intraspecific diversity on mammalian Y was found to be reduced even when male-biased mutation rate and effective population size were corrected for. A number of factors can cause this low variation on Y of which selection on a haploid chromosome seems most important.</p><p>The field vole (<i>Microtus agrestis</i>), a common and well-studied small mammal in Eurasia, was examined for X and Y variability. Earlier studies on mtDNA had shown that the field vole is separated in two distinct lineages in Europe. The X and Y chromosome sequences confirmed the deep split and suggested that the two lineages of field vole should be reclassified as two separate species.</p><p>Two distinct Y chromosome haplogroups were found in modern European cattle, distributed among breeds according to a north-south gradient. Ancient DNA analysis of European aurochsen showed the northern haplogroup to be the most common, possibly indicating local hybridization between domestic cows and wild aurochs bulls in Europe.</p> Genetics Y chromosome field vole cattle selection primer design Genetik Clinical genetics Klinisk genetik
134	Strategies for Identification of Susceptibility Genes in Complex Autoimmune Diseases Prokunina, Ludmila January 2004 (has links) <p>Systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA) are complex autoimmune diseases affecting 0.05-2% of the population worldwide. </p><p>Genetic studies detected linkage with SLE in the 2q37 region, and intensive family-based and case-control association studies in several populations identified that allele A of the SNP PD-1.3 located in the immunoreceptor PDCD1 (PD-1) gene, increases risk of the disease by 2.6-fold in Caucasians (p<0.00001) and by 3.5-fold in Mexicans (p=0.0009). </p><p>The same allele was found to be a risk factor for lupus nephritis, a severe clinical manifestation of SLE. In Swedish and European-American females with SLE, patients with the allele A had nephritis 1.8 times (p=0.01) more often than patients with allele G .</p><p>Moreover, the allele A was also found 1.8 times (p=0.005) more often in RA patients, negative for the known risk-factors, rheumatoid factor and the shared epitope, than in other groups of patients and controls. </p><p>Functional studies demonstrated that the mechanism behind the SNP PD-1.3 is related to the disruption of the binding site for RUNX transcription factors in the regulatory region. Expression of the PD-1 and RUNX genes was altered in the activated T cells of SLE patients compared to controls.</p><p>The Tumor Necrosis Factor Receptor 2 (TNFR 2) gene was studied as a second candidate gene for both SLE and RA. The results of our studies in SLE and RA patients and controls from Sweden and Mexico do not support the association of the polymorphism TNFR 2 M196R with these diseases. Other polymorphisms in this gene and other genes in this region should therefore be studied.</p> Genetics complex diseases autoimmune diseases genetic mapping functional studies Genetik Clinical genetics Klinisk genetik
135	Molecular Genetic Studies of Genes Predisposing for Glaucoma / Molekylärgenetiska studier av gener som predisponerar för glaukom Jansson, Mattias January 2004 (has links) <p>Glaucoma is one of the leading causes of visual impairment in the world. In glaucoma, the patient’s peripheral vision is lost due to progressive and irreversible deterioration of the retinal ganglion cells and atrophy of the optic nerve. The effect on the visual field is gradual and painless, and the progression so slow, that the patient may not notice until a substantial part of the visual field is lost. If left untreated, glaucoma can lead to blindness.</p><p>In this thesis, genes associated to glaucoma have been analysed in Swedish patients with primary open angle and exfoliative glaucoma. The genes studied were <i>MYOC</i>, <i>oculomedin,</i> <i>GSTM1</i> and <i>OPTN</i>.</p><p>The coding sequence of <i>MYOC</i> was analysed and mutations were found in 1% of the primary open angle glaucoma patients. Additionally, a predisposing variant was found in 1% of the patients as well as in 0.5% of the controls. No disease-associated variation was found in the exfoliative glaucoma cases. Mutations were also found in two families affected by glaucoma. The coding sequence of <i>oculomedin</i> was analysed, but none of the variants found were classified as disease causing in either patient group. <i>GSTM1</i> was analysed for its presence in the patients. No association could be found for either hetero- or homozygous deletions. The coding sequence and haplotype distribution of <i>OPTN</i> was analysed. None of the variants found were classified as disease causing and none of the haplotypes were associated to the disease in either patient group.</p><p>There are just a few per cent of the Swedish primary open angle glaucoma patients with genetic variation associated to disease, in the genes analysed in this study. No association to exfoliative glaucoma was found. This indicates heterogeneity in the genetics of glaucoma when different subtypes and different populations are compared. Likely, there are genes still to be identified.</p> Genetics glaucoma MYOC OCLM GSTM1 OPTN mutation analysis Genetik Clinical genetics Klinisk genetik
136	Studies of the Ribosomal Protein S19 in Erythropoiesis / Studier av Ribosom-protein S19 i erytropoesen Matsson, Hans January 2004 (has links) <p>Ribosomal proteins are components of the ribosome, the protein synthesis machinery. The ribosomal protein S19 gene (<i>RPS19</i>) is mutated in Diamond-Blackfan anemia, DBA, which is a rare congenital anemia with absence or reduction of erythroid precursors in bone marrow. In this thesis, the role of RPS19 in erythropoiesis is investigated.</p><p>A genetic analysis of <i>RPS19</i> in 24 DBA cases was performed. Four novel <i>RPS19</i> mutations were identified with evidence of wide clinical expression of the disease.</p><p>Due to the clinical overlap in Transient Erythroblastopenia of Childhood, TEC, and DBA, the two diseases may be caused by a common genetic factor. In a study of seven TEC families, all affected shared at least one parental haplotype in the <i>RPS19</i> gene region. Coding exons of <i>RPS19</i> were normal for all affected, although mutations in intronic and regulatory sequences are not excluded. This indicates a genetic factor behind TEC and a possible association between <i>RPS19</i> and TEC. </p><p>To investigate the role of RPS19 in erythropoiesis in a mammal, we created a mouse model for the targeted disruption of the homologue <i>Rps19</i> on the C57BL/6J genetic background. Null mutants are embryonic lethal prior to implantation. The <i>Rps19</i><sup>+/-</sup> mice, however, are viable with normal development including the hematopoietic system. The <i>Rps19</i> transcript level in <i>Rps19</i><sup>+/-</sup> mice is normal. Accordingly, RPS19 protein levels are similar in <i>Rps19</i><sup>+/-</sup> and <i>Rps19</i><sup>+/+</sup> mice. This argues for a transcriptional up-regulation to compensate for the loss of one <i>Rps19</i> allele. </p><p>Peripheral blood is normal in <i>Rps19</i><sup>+/-</sup> mice also on the FVB/NJ strain which argues against strain-specific effects of the <i>Rps19</i> disruption. Preliminary results indicate a reduced erythroid proliferation in response to erythropoietin in <i>Rps19</i><sup>+/-</sup> mice, suggesting the requirement of both <i>Rps19</i> alleles for normal erythroid proliferation under stress. This would support a mechanism by which haplo-insufficiency for RPS19 causes DBA.</p> Molecular genetics RPS19 Rps19 erythropoiesis erythroblastopenia Diamond-Blackfan anemia Genetik Genetics Genetik
137	Immunoglobulin Gene Analysis in Chronic Lymphocytic Leukemia : Characterization of New Prognostic and Biological Subsets Tobin, Gerard January 2004 (has links) <p>Recent studies have shown that the somatic mutation status of the immunoglobulin (Ig) V<sub>H</sub> genes can divide chronic lymphocytic leukemia (CLL) into two prognostic subsets, since cases with mutated V<sub>H</sub> genes display superior survival compared to unmutated cases. Biased V<sub>H</sub> gene usage has also been reported in CLL which may reflect antigen selection.</p><p>We performed V<sub>H</sub> gene analysis in 265 CLL cases and confirmed the prognostic impact of the V<sub>H</sub> mutation status. Preferential V<sub>H</sub> gene usage was also demonstrated in both the mutated and unmutated subset. Interestingly, CLL cases rearranging one particular V<sub>H</sub> gene, V<sub>H</sub>3-21, displayed poor outcome despite that two-thirds showed mutated V<sub>H</sub> genes. Many of the V<sub>H</sub>3-21 cases expressed λ light chains, rearranged a V<sub>λ</sub>2-14 gene, and had homologous complementarity determining region 3s (CDR3s), implying recognition of a common antigen epitope. We believe that the V<sub>H</sub>3-21 subset comprises an additional CLL entity.</p><p>To further explore the B-cell receptors in CLL, we analyzed the V<sub>H</sub> gene rearrangements and, specifically, the heavy chain CDR3 sequences in 346 CLL cases. We identified six new subgroups with similar HCDR3 features and restricted V<sub>L</sub> gene usage as in the V<sub>H</sub>3-21-using group. Our data indicate a limited number of antigen recognition sites in these subgroups and give further evidence for antigen selection in the development of CLL.</p><p>Different cutoffs have been suggested to distinguish mutated CLL in addition to the 2% cutoff. Using three levels of somatic mutations, i.e. <2%, 2-5% and >5%, we divided 323 CLLs into subsets with divergent survival. This division revealed a low-mutated subgroup (2-5%) with inferior outcome that would have been masked using the traditional 2% cutoff. </p><p>A 1513A/C polymorphism in the P2X<sub>7</sub> receptor gene was reported to be more frequent in CLL, but no difference in genotype frequencies was revealed in our 170 CLL cases and 200 controls. However, CLL cases with the 1513AC genotype showed superior survival than 1513AA cases and this was in particular confined to CLL with mutated V<sub>H</sub> genes.</p><p> In summary, we could define new prognostic subgroups in CLL using Ig gene rearrangement analysis. This also allowed us to gain insights in the biology and potential role of antigen involvement in the pathogenesis of CLL.</p> Genetics chronic lymphocytic leukemia immunoglobulin genes VH3-21 CDR3 P2X7 Genetik Clinical genetics Klinisk genetik
138	Exploring the Genetics of SLE with Linkage and Association Analysis Johansson, Cecilia January 2004 (has links) <p>The aim with this thesis has been to identify genes involved in the pathogenesis of Systemic Lupus Erythematosus (SLE). SLE is a systemic autoimmune disorder, most likely caused by both several genetic and environmental factors. </p><p>In order to identify susceptibility loci for the disease we performed linkage analyses on data from 70 families of various ethnic origins. Significant linkage was found in two regions. One region (chromosome 17p12-q11) was linked to SLE in a set of Argentine families. Since the same region had been previously identified in several linkage studies on Multiple Sclerosis patients, we propose that this locus may contain a genetic variant that affects not only SLE, but also autoimmunity in general. The second locus is located on chromosome 4p14-13 and has only been identified in a set of Icelandic families. We suggest that this locus contains a mutation that has been enriched in the Icelandic population due to its population history.</p><p>The <i>BCL2 </i>gene has been suggested as a candidate gene for SLE. Three markers in this gene were investigated for association with the disease in two different populations. However, no association could be found with any of the markers or when these markers were analysed together as a haplotype. We conclude that the <i>BCL2</i> gene is not associated with SLE in our material. This result contradicts previously published results of an association between <i>BCL2</i> and SLE. </p><p>We suggest that the PD-1 pathway (involved in inhibition of T- and B-cell responses) is an important component in SLE pathogenesis. A regulatory variant in the <i>PD-1</i> gene had previously been associated with SLE and here we show strong association (p<0.0001) to a haplotype containing SNPs in both <i>PD-L1</i> and <i>PD-L2</i>. </p><p>Our results indicate that SLE is a disease caused by several genetic variations that differ between families and populations.</p> Molecular genetics Systemic lupus erythematosus complex disease linkage analysis association analysis Genetik Genetics Genetik
139	Positional Cloning of Disease Causing Genes : A Genetic Study of Obesity, Ichthyosis Prematurity Syndrome and Meniere's Disease Klar, Joakim January 2005 (has links) <p>Positional cloning is a method to identify genes from their position in the genome without prior knowledge about function. We used this approach to investigate the basis for three distinct genetic disorders; Obesity, Ichthyosis Prematurity Syndrome and Meniere's disease.</p><p>Obesity appears when energy intake exceeds energy expenditure which leads to an abnormal accumulation of fat in the adipocyte tissue. We have studied a family with a balanced chromosomal translocation t(4;15) segregating with severe obesity. The chromosomal breakpoints create a fusion gene involving the gene for isoform 1 of RAR-related orphan receptor A (<i>RORa1</i>) which is implicated in the regulation of adipogenesis and lipoprotein metabolism. We hypothesize that the obesity in this family is caused by haploinsufficiency of this gene or a gain of function of the fusion gene.</p><p>Ichthyosis prematurity syndrome (IPS) is a rare skin disorder belonging to a group of autosomal recessive congenital ichthyosis. We have mapped the locus for IPS to chromosome 9q34. Within the IPS locus, we identified a core haplotype with a high carrier frequency among affected, which indicate a possible founder mutation for the disease. The minimal shared region in affected patients contains seven genes which are candidates for IPS.</p><p>Meniere's disease (MD) is characterised by spontaneous attacks of vertigo, fluctuating sensorineural low frequency hearing loss, aural fullness, and tinnitus. We mapped the MD locus to chromosome 12p13 using three Swedish families. The linked region is 463 kb, containing only one gene, a phosphoinositide-3-kinase (<i>PIK3C2G</i>). Involvement of phosphatidylinositol 3-kinases (PI-3K) in the intra cellular signalling cascades of cells in mammalian balance epithelia makes this gene a good candidate gene for MD.</p> Genetics Positional cloning Obesity Ichthyosis Meniere’s disease RORa PIK3C2G Genetik Clinical genetics Klinisk genetik
140	PDGF in cerebellar development and tumorigenesis Andræ, Johanna January 2001 (has links) <p>Medulloblastoma is a highly malignant cerebellar childhood tumor. As in many other brain tumors, expression of platelet-derived growth factor (PDGF) and its receptors has been shown in medulloblastoma. To reveal the importance of this growth factor in cerebellar development and tumorigenesis, analyses were performed on human medulloblastoma cell lines and on tissue from normal mouse brain at different stages of development. The <i>in vivo</i> effect of a forced expression of PDGF-B in the cerebellar primordium was examined in transgenic mice. </p><p>In the normal mouse embryo, we found PDGF receptor-α-positive cells in the early neuroepithelium and on neuronal precursors. In the postnatal cerebellum, cells in the external germinal layer and Purkinje cells expressed the receptor. In the medulloblastoma cells, expression of all the three PDGF isoforms and PDGF receptors was seen and correlated to neuronal differentiation. Endogenously activated, <i>i.e.</i> tyrosine phosphorylated, PDGF receptors were identified. To reveal the role of PDGF in normal cerebellar development, we established transgenic mice where a PDGF-B cDNA was introduced via homologous recombination into the engrailed-1 gene. Engrailed-1 is specifically expressed at the mid-/hindbrain boundary of the early neural tube, <i>i.e.</i> in an area from which the cerebellar primordium develops. The ectopic expression of PDGF-B caused a disturbance of cerebellar development. Midline fusion of the cerebellar primordium did not occur properly, which resulted in cerebellar dysplasia in the adult mouse.</p><p>In a parallel study, the expression pattern of a glial fibrillary acidic protein (GFAP)-<i>lacZ</i> transgene was followed in the embryonic mouse central nervous system. It was shown that the human GFAP promoter was already active by embryonic day 9.5 and as development proceeded, expression occured in different, independent cell populations. Among these cell populations were the radial glial cells in the neocortex.</p> Genetics cerebellum medulloblastoma PDGF GFAP transgenic mice Genetik Clinical genetics Klinisk genetik

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