Global ETD Search

251	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
252	Targeting Non-obvious Errors in Death Certificates Johansson, Lars Age January 2008 (has links) <p>Mortality statistics are much used although their accuracy is often questioned. Producers of mortality statistics check for errors in death certification but current methods only capture obvious mistakes. This thesis investigates whether non-obvious errors can be found by linking death certificates to hospital discharge data.</p><p>Data: 69,818 deaths in Sweden 1995. Paper I: Analysing differences between the underlying cause of death from the death certificate (UC) and the main discharge condition from the patient’s last hospitalization (MDC). Paper II: Testing whether differences can be explained by ICD definitions of UC and MDC. Paper III: Surveying methods in 44 current studies on the accuracy of death certificates. Paper IV: Checking death certificates against case summaries for: i) 573 deaths where UC and MDC were the same or the difference could be explained; ii) 562 deaths where the difference could not be explained.</p><p>Results: In 54% of deaths the MDC differed from the UC. Almost two-thirds of the differences were medically compatible since the MDC might have developed as a complication of the UC. Of 44 recent evaluation studies, only 8 describe the methods in such detail that the study could be replicated. Incompatibility between MDC and UC indicates a four-fold risk that the death certificate is inaccurate. For some diagnostic groups, however, death certificates are often inaccurate even when the UC and MDC are compatible.</p><p>Conclusion: Producers of official mortality statistics could reduce the number of non-obvious errors in the statistics by collecting additional information on incompatible deaths and on deaths in high-risk diagnostic groups. ICD conventions contribute to the quality problem since they presuppose that all deaths are due to a single underlying cause. However, in an ageing population an increasing number of deaths are due to an accumulation of etiologically unrelated conditions.</p> Social medicine Cause of death Death certificates Medical records Mortality statistics Quality control Medical record linkage Socialmedicin
253	Genetic Disequilibria and the Interpretation of Population Genetic Structure in Daphnia Berg, Lars M. January 2001 (has links) Understanding the processes that shape the spatial distribution of genetic variation within species is central to the evolutionary study of diversification and demography. Neutral genetic variation reflects past demographic events as well as current demographic characteristics of populations, and the correct interpretation of genetic data requires that the relative impact of these forces can be identified. Details of breeding systems can affect the genetic structure through effects on effective migration rate or on effective population size. Restrictions in recombination rate lead to associations between neutral marker genes and genes under natural selection. Although the effects on genetic structure can be substantial, the process will often be difficult to tell apart from stochastic effects of history or genetic drift, which may suggest erroneous conclusions about demography. In cyclically parthenogenetic freshwater invertebrates, which alternate between sexual and asexual reproduction, demographic fluctuations and reliance on diapausing eggs for dispersal enhances neutral genetic differentiation as well as effects of selection on associated genes. Although genetic founder effects are expected to be profound and long-lasting in these species, genetic hitch-hiking may reduce initial strong differentiation rapidly if better adapted genes are introduced by mutation or immigration. Fluctuating environmental conditions have been suggested to generate rapid shifts in the frequencies of clones during the asexual phase. In the presence of egg banks resting in sediments, genetic diversity is stabilised and the importance of migration for differentiation is reduced. Studies of unstable and young populations of cyclically parthenogenetic Daphnia pulex showed substantial variation for important fitness traits, within as well as between populations, despite hypothesised recent founder effects. Neutral markers indicated genetic equilibrium, but changes in clonal composition during asexuality disrupted the genetic structure in a manner compatible with local adaptation and exclusion of immigrants. This illustrates that the forces affecting sexual progeny may be markedly different from those shaping the structure among asexual individuals. Developmental biology breeding system linkage disequilibrium dispersal genetic structure Daphnia pulex Utvecklingsbiologi Developmental biology Utvecklingsbiologi
254	Genetic studies on Systemic Lupus Erythematosus : A fine mapping and candidate gene approach Magnusson, Veronica January 2002 (has links) Linkage in the 2q37 region was evaluated using microsatellite markers in multi-case families from Sweden, Iceland and Norway. Both the two-point and the multipoint linkage analysis show highly significant LOD scores (Z=4.51 and 6.03, respectively). Linkage disequilibrium mapping indicates that some association exists in this region. The PDCD1 gene was suggested as a candidate gene within the 2q37 locus due to its importance in immune regulation. Indeed, one haplotype, described by the presence of allele A of the PD1.3 SNP located within intron 4 of this gene, shows linkage to SLE in the Nordic families. The PD1.3A allele is also found to be strongly associated in familiar and sporadic cases of SLE in Europeans and Mexicans. Functional studies further support PD1.3A to be a susceptibility allele for SLE. The 1q23 region, containing the genes for the low affinity Fcγ receptors, was fine mapped using single- and multi- case families of various origins. Genetic variants of those genes were analysed and association is found to both the risk alleles of FcγRIIA and FcγRIIIA in all families. In these families, a single haplotype carrying both risk alleles is predominantly transmitted to patients with SLE, suggesting a presence of linkage disequilibrium between those two genes. FcγRIIA and FcγRIIIA are also found to be associated to SLE and lupus nephritis in a case-control cohort from Sweden. In the same cohort, the PD1.3A allele shows strong association to lupus nephritis. We suggest that there may be an additive effect between FcγRIIA and PDCD1, since having the disease-associated genotypes at both loci gives an increased risk for developing lupus nephritis. Systemic Lupus Erythematosus (SLE) is a systemic autoimmune disorder with a complex multifactorial aetiology. Genetic studies suggest that several genes are involved in disease pathogenesis and that extended genetic heterogeneity is present. Molecular genetics Systemic Lupus Erythematosus complex disease linkage analysis candidate gene association studies Genetik Genetics Genetik
255	Sexual Signals and Speciation : A Study of the Pied and Collared Flycatcher Haavie, Jon January 2004 (has links) Speciation is the process in which reproductive barriers evolve between populations. In this thesis I examine how sexual signals contribute to the maintenance, reinforcement or breakdown of reproductive barriers. Male pied flycatchers (Ficedula hypoleuca) and collared flycatchers (F. albicollis) differ in song and plumage traits. However, where the two species coexist, several pied flycatchers sing a song resembling the collared flycatcher (mixed song). Mixed song is not caused by introgression from the collared flycatcher but is due to heterospecific copying. Mixed song provokes aggressive behaviour in collared flycatcher males and leads to heterospecific pairing and maladaptive hybridization. The species differences in song were found to be larger in an old than a young hybrid zone. This was due to a reduction in the frequency of mixed song in the pied flycatcher and a divergence in the song of the collared flycatcher. Apparently, mixed song causes maladaptive hybridization, which over time leads to reinforcement of reproductive barriers by a song divergence. Previous studies have shown that a character displacement in male plumage traits reinforces species barriers. Hence both plumage and song divergence reduce the incidence of hybridization. The evolution of male plumage traits has been so rapid, or selection has been so strong that rapidly evolving molecular markers are unable to trace it. Hybrid females mate with a male of the same species as their father. Previous studies have shown that females use male plumage traits controlled by genes linked to the sex chromosomes (the Z) in species recognition. An association between preference and a sex-linked trait through the paternal line may render reinforcement of reproductive barriers more likely. In conclusion, sexual signals are affected by species interactions that cause breakdown or reinforcement of reproductive barriers. Biology Speciation Sexual signals Hybridization Reinforcement Song Female preference Sex-linkage Biologi Biology Biologi
256	Finding Genes for Schizophrenia Åberg, Karolina January 2005 (has links) Schizophrenia is one of our most common psychiatric diseases. It severely affects all aspects of psychological functions and results in loss of contact with reality. No cure exists and the treatments available today produce only partial relief for disease symptoms. The aim of this work is to better understand the etiology of schizophrenia by identification of candidate genes and gene pathways involved in the development of the disease. In a preliminarily study, the effects of medication and genetic factors were investigated in a candidate gene, serotonin 2C receptor. This study distinguished pharmacological effects, caused by neuroleptics, and/or genetic effects, caused by unique polymorphisms, from other effects responsible for mRNA expression changes on candidate genes. The core of the thesis describes a new candidate gene for schizophrenia, the quaking homolog, KH domain RNA binding (mouse) or QKI, located on chromosome 6q26-q27. The identification of QKI is supported by previous linkage studies, current association studies and mRNA expression studies using three different sample sets. The investigated samples included a 12-generation pedigree with 16 distantly related schizophrenic cases and their parents, 176 unrelated nuclear families with at least one affected child in each family and human brain autopsies from 55 schizophrenic cases and from 55 controls. Indirect evidence showing involvement of QKI in myelin regulation of central nervous system is presented. Myelin plays an important role in development of normal brains and disruption of QKI might lead to schizophrenia symptoms. In a forth sample set, including extended pedigrees originated from a geographically isolated area above the Arctic Circle, in northeast Sweden, two additional schizophrenia susceptibility loci were identified, 2q13 and 5q21. Both these regions have previously been highlighted as potential schizophrenia loci in several other investigations, including a large Finnish study. This suggests common schizophrenia susceptibility loci for Nordic populations. A pilot investigation including a genome wide haplotype analysis is presented. This statistical strategy could be further developed and applied to the artic Swedish families, including analysis of 900 microsatellites and 10,000 SNPs. These findings will facilitate the understanding of the schizophrenia etiology and may lead to development of more efficient treatments for patients that suffer from schizophrenia. psychiatric genetics QKI large pedigree haplotype investigation mRNAexpression genetic linkage myelin HTR2C Biology Biologi
257	Genetic mapping of retinal degenerations in Northern Sweden Köhn, Linda January 2009 (has links) Inherited retinal degenerations are a group of disorders characterised by great genetic heterogeneity. Clinically, they can be divided into two large groups of diseases, those associated with night blindness, e.g. retinitis pigmentosa (RP), and those with macular malfunction, e.g. cone/cone-rod dystrophy (COD/CORD). This thesis is focused on finding the genetic basis of disease in families with autosomal dominant COD, autosomal dominant RP, and Bothnia dystrophy (BD), a regional variant of RP. A variant of COD was previously mapped to 17p12-p13 in a family from northern Sweden. One additional family originating from the same geographical area was included in fine mapping of this chromosome region. Using 12 microsatellite markers in linkage and haplotype analysis, the region was refined from 26.9 to 14.3 cM. A missense mutation, Q626H, in an evolutionarily conserved region of PITPNM3, phosphatidylinositol transfer membrane-associated protein, was identified. The mutation segregated with the disease in both families and was absent from normal control chromosomes. PITPNM3 is a human homologue of the Drosophila retinal degeneration (rdgB) protein, which is highly expressed in the retina and has been proposed to be required for membrane turnover of photoreceptor cells. With the intention of establishing the global impact that PITPNM3 has on retinal degenerations 165 DNA samples from COD and CORD patients were obtained from Denmark, Germany, the UK, and USA and screened for mutations. The Q626H mutation found in the Swedish families was also found in one British family and a novel Q342P variant was detected in a German patient. In addition, two intronic variants were identified: c.900+60C>T and c.901-45G>A. Thus, we concluded that mutations in PITPNM3 represent a rare cause of COD worldwide. In two large families from northern Sweden showing autosomal dominant RP with reduced penetrance, the disease locus was mapped using genome-wide linkage analysis to 19q13.42 (RP11). Since mutation screening of eight genes on 19q13.42 revealed no mutations, multiplex ligation-dependent probe amplification (MLPA) was used to screen for large genomic abnormalities in PRPF31, RHO, RP1, RPE65, and IMPDH1. A large deletion spanning 11 exons of PRPF31 and three genes upstream was identified. Using long-range PCR, the breakpoints of the deletion were identified and the size of the deletion was determined to encompass almost 59 kb. BD is an autosomal recessive type of RP with high prevalence in northern Sweden. The disease is associated with a c.700C>T mutation in RLBP1. In a screening of recessive RP in northern Sweden, 67 patients were found to be homozygous for c.700C>T and 10 patients were heterozygous. An evaluation with arrayed primer extension (APEX) technology revealed a second mutation, c.677T>A, in RLBP1 giving rise to compound heterozygosity in these patients. In addition, a c.40C>T exchange in CAIV was detected in a patient with BD and in 143 healthy blood donors. The c.40C>T substitution in CAIV has been reported to cause autosomal dominant RP in South African families with European ancestry. However, in the population of northern Sweden it appears to be a benign polymorphism. In summary, a first mutation in PITPNM3, encoding a human homologue of the Drosophila retinal degeneration protein, was detected in two large families with COD. A large deletion in PRPF31 was discovered in two families with autosomal dominant RP showing reduced penetrance and in 10 patients BD was shown to be caused by two allelic mutations in RLBP1. Medical genetics Medicinsk genetik
258	Genetic studies of diabetes in northern Sweden Mayans, Sofia January 2008 (has links) Diabetes mellitus represents a group of metabolic disorders caused by both environmental and genetic factors. The two most common forms of diabetes are type 2 diabetes (T2D) and type 1 diabetes (T1D). T2D is associated with obesity and the disease is caused by insulin resistance and pancreatic b-cell dysfunction. T1D is an autoimmune disease in which the insulin- producing b-cells in the pancreas are destroyed by infiltration of lymphocytes. The aim of this thesis was to identify genes conferring susceptibility to diabetes. This was approached using genetic methods, both linkage and association studies, within the population of northern Sweden. The northern Swedish population is well suited for genetic studies of familial forms of disease, since an internal expansion of the northern Swedish population, coupled with a low frequency of immigration and a high frequency of consanguineous marriages, has resulted in a relatively homogeneous gene pool. This simplified genetic background increases the probability of identifying genes contributing to disease. The family-based material used for the type 2 diabetes studies (papers I and II) consisted of 231 individuals from 59 families originating in northern Sweden. The type 2 diabetes case-control material (papers I and II) consisted of 872 cases and 857 matched controls, all from northern Sweden. In paper I we performed a genome-wide linkage scan, seeking T2D susceptibility loci. Linkage to the previously identified Calpain-10 region was found, however, association studies in the case-control material revealed no association to the CAPN10 gene. Using both the family-based and the case-control material, we were able to confirm the association of polymorphisms in the TCF7L2 gene to T2D in the population of northern Sweden (paper II). CTLA-4 is a negative regulator of T cell activity, belonging to the CD28 co-stimulatory receptor family. Numerous reports, including our own, have associated CTLA-4 variants with T1D as well as other autoimmune diseases, such as autoimmune thyroid disease (AITD). Allelic variation in the 3ÚTR of the CTLA-4 gene was associated to human T1D and this variant has also been suggested to affect the level of mRNA encoding the soluble form of the molecule (sCTLA-4). We confirmed the association of allelic variation in the 3ÚTR of the CTLA-4 gene in a T1D/AITD case-control material from northern Sweden, consisting of 104 individuals with ATID, 149 individuals with T1D and 865 matched controls. However, we were unable to identify any correlation between allelic variants in the 3ÚTR of the CTLA-4 gene and expression of sCTLA-4 (paper III). Based on recently published genome-wide association (GWA) scans, 33 single-nucleotide polymorphisms (SNPs) located within 16 genes were selected for an association analysis in T1D/AITD families from northern Sweden. The T1D/AITD family-based material consisted of 253 cases and 206 healthy individuals from 97 northern Swedish families. Analysis revealed association to T1D for SNPs in PTPN22, COL1A2, IL-2Ra and INS. In addition, SNPs in CTLA-4, IL-2 and C12orf30 were shown to be associated to AITD (paper IV). Together, these results underpin the notion that the population of northern Sweden is well suited for the detection of genes involved in complex diseases. The use of our more restricted patient material, compared to materials used in published GWA scans, enables the discovery of disease associated genes in a more cost effective manner and show that our population is capable of detecting general susceptibility genes. Diabetes families genetic association SNP linkage TCF7L2 CTLA-4 Calpain-10 Medical genetics Medicinsk genetik
259	Diagnostic Evaluation of Schizophrenia for Genetic Studies Ekholm, Birgit January 2005 (has links) Schizophrenia is one of the most severe mental disorders. Heredity is accepted as a major causative factor. To find molecular mechanisms behind schizophrenia, patient materials with reliable and valid diagnoses must be identified. In order to compare schizophrenia diagnostic procedures for reliability, validity and suitability for genetic studies by evaluation of record information, interview and register diagnostic data and to examine patient materials for linkage or association with molecular genetic markers three patient materials were recruited: sporadic cases, a large pedigree and sib-pairs. Schizophrenia diagnoses based on patient records only, showed good to excellent agreement with diagnoses based on both records and interviews. Register diagnoses generally displayed poor agreement with research diagnoses, but in 94% of patients sometimes registered as schizophrenic psychoses a research diagnosis of these disorders was certified. In the pedigree, analysis suggested linkage to chr 6p23 in a single branch of the pedigree, and a genome scan indicated linkage to the 6q25 region. A genome scan analysis of the sib-pair material was suggestive of linkage to chr 10q25.3-q26.3. In the case-control sample and a meta-analysis there was an association between a dopamine D2 receptor polymorphism (Ser311Cys), on chr 11q22-23, and the disorder. Brain-derived neurotrophic factor gene variants (chr 11p13) were also analysed without any robust significant findings. For patients in long-term treatment for schizophrenia in Sweden, psychiatric record reviews should be valid, reliable and sufficient for assessment of lifetime research diagnosis. Swedish register diagnosis of schizophrenic psychoses has a high positive predictive power in relation to corresponding research diagnoses. For future Swedish studies focusing on a broad definition of schizophrenia, it is sufficient to rely on the register diagnoses of schizophrenic psychosis. There is no major vulnerability gene or locus that is common to the majority of patients with schizophrenia, indicating genetic heterogeneity. Psychiatry Schizophrenia Diagnostic evaluation Molecular genetic studies Linkage Association Psykiatri Psychiatry Psykiatri
260	Genetic epidemiology of prostate cancer Wiklund, Fredrik January 2004 (has links) Prostate cancer is a major health burden throughout the world, yet the etiology of prostate cancer is poorly understood. Evidence has accumulated supporting the existence of a hereditary form of this disease. Improved understanding of the genetic mechanisms underlying the development and progression of prostate cancer would be a major advance for improved prevention, detection and treatment strategies. This thesis evaluates different aspects of the genetic epidemiology of prostate cancer. In a genomic scan two chromosomal regions with evidence for linkage was observed. The strongest support was found on chromosome 19p with an allele sharing LOD score of 2.91 (genome-wide P = 0.032). The second region, showing suggestive evidence of linkage, was observed in the centromeric region of chromosome 5. Linkage analyses of densely spaced markers on chromosome 8p22-23 confirmed (P = 0.03) previously reported linkage to this region. A systematic evaluation of the possible impact that the RNASEL gene have on prostate cancer was performed. Overall, limited evidence for association with prostate cancer risk was found. The results provide strong evidence against a role of RNASEL in prostate cancer etiology in Sweden. In a comprehensive evaluation of occurrence of other malignancies in HPC families, previously reported association between gastric and prostate carcinoma was confirmed. The increased risk was of the same magnitude in early and late onset HPC families and confined to only male relatives. A genome-wide linkage analysis, stratified by occurrence of gastric carcinoma, identified a novel susceptibility locus on chromosome Xp21. In summary, chromosome 5q and 19p represents the regions most likely to harbor susceptibility genes predisposing to prostate cancer in the Swedish population. A common genetic basis for both gastric and prostate cancer has been confirmed and a novel susceptibility locus on chromosome Xp21 has been identified. Oncology prostate cancer epidemiology genetics linkage analysis genome-wide scan Onkologi Oncology Onkologi

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