Global ETD Search

1	Transcriptome-Wide Study of Transcriptional Kinetics in Human Cells Jin, Bowen 26 May 2023 (has links) No description available. Bioinformatics Genetics single-cell RNA-seq transcriptional burst allele-specific expression eQTL transcription factor
2	Computational analysis of effects and interactions among human variants in complex diseases Valentini, Samuel 18 October 2022 (has links) In the last years, Genome-Wide Associations Studies (GWAS) found many variants associated with complex diseases. However, the biological and molecular links between these variants and phenotypes are still mostly unknown. Also, even if sample sizes are constantly increasing, the associated variants do not explain all the heritability estimated for many traits. Many hypotheses have been proposed to explain the problem: from variant-variant interactions, the effect of rare and ultra-rare coding variants and also technical biases related to sequencing or statistic on sexual chromosomes. In this thesis, we mainly explore the hypothesis of variant-variant interaction and, briefly, the rare coding variants hypothesis while also considering possible molecular effects like allele-specific expression and the effects of variants on protein interfaces. Some parts of the thesis are also devoted to explore the implementation of efficient computational tools to explore these effects and to perform scalable genotyping of germline single nucleotide polymorphisms (SNPs) in huge datasets. The main part of the thesis regards the development of a new resource to identify putative variant-variant interactions. In particular, we integrated ChIP-seq data from ENCODE, transcription factor binding motifs from several resources and genotype and transcript level data from GTeX and TCGA. This new dataset allows us to formalize new models, to make hypothesis and to find putative novel associations and interactions between (mainly non-coding) germline variants and phenotypes, like cancer-specific phenotypes. In particular, we focused on the characterization of breast cancer and Alzheimer’s Disease GWAS risk variants, looking for putative variants’ interactions. Recently, the study of rare variants has become feasible thanks to the biobanks that made available genotypes and clinical data of thousands of patients. We characterize and explore the possible effects of rare coding inherited polymorphisms on protein interfaces in the UKBioBank trying to understand if the change in structure of protein can be one of the causes of complex diseases. Another part of the thesis explores variants as causal molecular effect for allele-specific expression. In particular, we describe UTRs variants that can alter the post-transcriptional regulation in mRNA leading to a phenomenon where an allele is more expressed than the other. Finally, we show those variants can have prognostic significance in breast cancer. This thesis work introduces results and computational tools that can be useful to a broad community of researcher studying human polymorphisms effects. Settore BIO/11 - Biologia Molecolare
3	Cis-acting Genetic Variants that Alter ERCC5 Regulation as a Prototype to Characterize cis-regulation of Key Protective Genes in Normal Bronchial Epithelial Cells Zhang, Xiaolu January 2016 (has links) No description available. Genetics Medicine Molecular Biology lung cancer risk DNA polymorphism ERCC5 allele-specific expression
4	Hereditary transthyretin amyloidosis (ATTR V30M) : from genes to genealogy / Ärftlig transtyretinamyloidos (Skelleftesjukan) : från arvsanlag till släktträd Norgren, Nina January 2014 (has links) Background: Hereditary transthyretin amyloidosis is an autosomal dominant disease with a reduced penetrance. The most common mutation in Sweden is the V30M mutation in the transthyretin gene. Clustering areas of the disease can be found in Northern Sweden, Portugal, Brazil and Japan, although sporadic cases exist worldwide. Despite being caused by the same mutation, there are large differences in onset, penetrance and symptoms of the disease. Swedish V30M patients typically have a later onset with a lower penetrance compared to those from the clustering Portuguese V30M areas. The reasons for these differences have not been fully understood. The aim of this thesis is to study mechanisms that may influence onset and symptoms and investigate why patients carrying the same mutation have different phenotypes. Methods: Genealogy studies were performed on all known V30M carriers in Sweden using standard genealogy methods. DNA samples from patients, asymptomatic carriers and controls from different countries were collected and the transthyretin gene was sequenced. Liver biopsies from patients were used for allele specific expression analysis and a cell assay was used for miRNA analysis with the mutated allele. Gene expression analysis was performed on biopsies from liver and fat from patients and controls. Results and conclusions: Genealogic analysis of all known Swedish V30M carriers managed to link together 73% of the Swedish ATTR V30M population to six different ancestors from the 17th and 18th century, thus dating the Swedish V30M mutation to be more than 400 years old. A founder effect was also visible in descendants to one of the ancestors, producing a later age at onset. Sequencing of the transthyretin gene revealed a SNP in the 3’ UTR of all Swedish V30M carriers that was not found in any of the Japanese or French V30M carriers. The SNP was present on the Swedish transthyretin haplotype and defined the Swedish V30M population as separate from others. However, the SNP itself had no effect upon phenotype or onset of disease. Gene expression analysis of liver and fat tissue revealed a change in genetic profile of the patients’ livers, in contrast to the unchanged profile of the fat tissue. A changed genetic profile of the liver could explain why domino liver recipients develop the disease much earlier than expected. Hereditary transthyretin amyloidosis Familial amyloid polyneuropathy transthyretin genealogy founder effect miRNA allele-specific expression gene expression liver
5	Genetic and Genomic Analysis of DNA Sequence Variation Lundmark, Per Erik January 2011 (has links) The studies in this thesis describe the application of genotyping and allele specific expression analysis to genetic studies. The role of the gene NPC1 in Triglyceride metabolism was explored in mouse models and in humans on the population level in study I. NPC1 was found to affect hepatic triglyceride metabolism, and to be relevant for controlling serum triglyceride levels in mice and potentially in humans. In study II the utility of the HapMap CEU samples was investigated for tagSNP selection in six European populations. The HapMap CEU was found to be representative for tagSNP selection in all populations while allele frequencies differed significantly in the sample from Kuusamo, Finland. In study III the power of Allele specific expression as a tool for the mapping of cis-regulatory variation was compared to standard eQTL analysis, ASE was found to be the more powerful type of analysis for a similar sample size. Finally ASE mapping was applied to regions reported to harbour long non-coding RNAs and associated SNPs were compared to published trait-associations. This revealed strong cis-regulatory SNPs of long non-coding RNAs with reported trait or disease associations. SNP NPC1 association study allele specific expression tagSNP non-coding RNA
6	Identifying the role of the imprinted gene Pw1/Peg3 in the central nervous system / Etude du rôle du gène d'empreinte Pw1/Peg3 dans le système nerveux central Denizot, Anne-Lyse 24 September 2015 (has links) Chez les mammifères, une centaine de gènes sont soumis à une régulation épigénétique où seule la copie maternelle, ou paternelle, est exprimée. Ce phénomène appelé empreinte parentale alimente encore différentes théories liées à la reproduction, notamment celles du conflit parental et de la coadaptation entre mère et enfant. Pw1/Peg3 est un gène d'empreinte paternellement exprimé. Cependant, à l'aide de deux modèles de souris bien distincts, une souris rapporteur (Pw1IRESnLacZ) et une nouvelle souris knockout pour Pw1/Peg3, nous avons détecté des transcrits Pw1/Peg3 maternels dans le cerveau périnatal. Plus précisément, nous avons mis en évidence une expression bi-allélique du gène rapporteur Pw1IRESnLacZ restreinte aux deux futures niches de cellules souches neurales adultes. In vitro, nous avons conclu, via des cultures primaires de cellules souches neurales, que l'expression bi-allélique endogène de Pw1/Peg3 est un évènement ponctuel rare. D'ailleurs lors de la caractérisation de notre modèle de souris Pw1/Peg3 knockout, nous avons observé un retard de croissance uniquement lors de la délétion de l'allèle Pw1/Peg3 paternel. Ce phénotype n'est pas lié à un problème de prise alimentaire chez les nouveaux-nés et contrairement à ce qui a été précédemment décrit, nous n'avons détecté aucun défaut de comportement maternel chez les femelles mutantes pour Pw1/Peg3. La lactation n'est pas non plus impactée par la délétion de Pw1/Peg3. Ces résultats démontrent que Pw1/Peg3 favorise intrinsèquement la croissance postnatale et que, désormais, ce gène d'empreinte ne peut plus être utilisé afin d'illustrer la théorie de coadaptation entre mère et enfant. / In mammals, a hundred of genes are preferentially expressed from one specific parental allele; a phenomenon referred as genomic imprinting. Establishing theories to explain the emergence of such a gene dosage strategy is challenging. Pw1/Peg3 is a paternally expressed gene. Using both a reporter mouse model and a novel constitutive knockout mouse model, we detected Pw1/Peg3 transcription from the maternal allele, which is normally silent, in the perinatal brain. Specifically, we observed that a putative Pw1/Peg3 bi-allelic expression is mainly restricted to the two future adult neural stem cells niches. In vitro experiments on primary neural stem cells allowed us to conclude that imprinting relaxation of the Pw1/Peg3 maternal allele is a rare event. Whether it affects the mouse phenotype is currently under investigation. In parallel, consistent with previously established mutant mouse models we confirmed that paternal Pw1/Peg3 deletion leads to growth retardation. However we did not find any impairment in maternal behaviors upon heterozygous or homozygous loss of Pw1/Peg3. Lactation was also not disrupted and mutant pups exhibited a normal suckling ability. Taken together, PW1/PEG3 promotes growth intrinsically and can no longer be used to illustrate the popular coadaptation theory between mother and infant. Pw1/Peg3 Empreinte parentale Expression allèle-spécifique Cellules souches neurales Comportement maternel Genomic imprinting Allele-specific expression 572.8
7	Cis-regulatory variation and divergence in Capsella Steige, Kim A. January 2016 (has links) Cis-regulatory changes in e.g. promoters or enhancers that affect the expression of a linked focal gene have long been thought to be important for adaptation. In this thesis, I investigate the selective importance and genomic correlates of cis-regulatory variation and divergence in the genus Capsella, using massively parallel sequencing data. This genus provides an opportunity to investigate cis-regulatory changes in response to polyploidization and mating system shifts, as it harbors three diploid species, the outcrosser Capsella grandiflora and the selfers Capsella orientalis and Capsella rubella, as well as the tetraploid Capsella bursa-pastoris. We first identify cis-regulatory changes associated with adaptive floral evolution in connection with the recent switch to self-fertilization in C. rubella and show that cis-regulatory changes between C. rubella and its outcrossing close relative C. grandiflora are associated with differences in transposable element content. Second, we show that variation in positive and purifying selection is important for the distribution of cis-regulatory variation across the genome of C. grandiflora. Interestingly, the presence of polymorphic transposable elements is strongly associated with cis-regulatory variation in C. grandiflora. Third, we show that the tetraploid C. bursa-pastoris is of hybrid origin and investigate the contribution of both parental species to gene expression. We show that gene expression in the tetraploid is partly explained by cis-regulatory divergence between the parental species. Nonetheless, within C. bursa-pastoris there is a great deal of variation in homeolog expression. In summary, this thesis explores the role of cis-regulatory changes for adaptive morphological changes in connection to a shift in mating system, the role of cis-regulatory divergence between progenitor species for an allopolyploid as well as the impact of positive and purifying selection on cis-regulatory variation within a species. Capsella Shepherd's Purse cis-regulatory changes allele-specific expression mating system shift floral evolution polyploidy positive selection purifying selection transposable elements small RNA methylation transposable element silencing distribution of fitness effects
8	Development of Bimodal Gene Expression Analysis and Allele-Specific Competitive PCR for Investigation of Complex Genetic Traits, Lung Cancer Risk Blomquist, Thomas M. 04 August 2010 (has links) No description available. Bioinformatics Biology Biomedical Research Biostatistics Cellular Biology Computer Science Epidemiology Experiments Genetics Health Health Care Molecular Biology Oncology Pathology Pharmacology Philosophy Public Health allele-specific expression lung cancer complex genetic traits dispersion bimodal kurtosis variance
9	Medical relevance and functional consequences of protein truncating variants Rivas Cruz, Manuel A. January 2015 (has links) Genome-wide association studies have greatly improved our understanding of the contribution of common variants to the genetic architecture of complex traits. However, two major limitations have been highlighted. First, common variant associations typically do not identify the causal variant and/or the gene that it is exerting its effect on to influence a trait. Second, common variant associations usually consist of variants with small effects. As a consequence, it is more challenging to harness their translational impact. Association studies of rare variants and complex traits may be able to help address these limitations. Empirical population genetic data shows that deleterious variants are rare. More specifically, there is a very strong depletion of common protein truncating variants (PTVs, commonly referred to as loss-of-function variants) in the genome, a group of variants that have been shown to have large effect on gene function, are enriched for severe disease-causing mutations, but in other instances may actually be protective against disease. This thesis is divided into three parts dedicated to the study of protein truncating variants, their medical relevance, and their functional consequences. First, I present statistical, bioinformatic, and computational methods developed for the study of protein truncating variants and their association to complex traits, and their functional consequences. Second, I present application of the methods to a number of case-control and quantitative trait studies discovering new variants and genes associated to breast and ovarian cancer, type 1 diabetes, lipids, and metabolic traits measured with NMR spectroscopy. Third, I present work on improving annotation of protein truncating variants by studying their functional consequences. Taken together, these results highlight the utility of interrogating protein truncating variants in medical and functional genomic studies. 572
10	A Novel Approach to Identify Candidate Imprinted Genes in Humans Shapiro, Jonathan 21 March 2012 (has links) Many imprinted genes are necessary for normal human development. Approximately 70 imprinted genes have been identified in humans. I developed a novel approach to identify candidate imprinted genes in humans using the premise that imprinted genes are often associated with nearby parent-of-origin-specific DNA differentially methylated regions (DMRs). I identified parent-of-origin-specific DMRs using sodium bisulfite-based DNA (CpG) methylation profiling of uniparental tissues, mature cystic ovarian teratoma (MCT) and androgenetic complete hydatidiform mole (AnCHM), and biparental tissues, blood and placenta. In support of this approach, the CpG methylation profiling led to the identification of parent-of-origin-specific differentially methylated CpG sites (DMCpGs) in known parent-of-origin-specific DMRs. I found new DMRs for known imprinted genes NAP1L5 and ZNF597. Most importantly, I discovered many new DMCpGs, which were associated with nearby genes, i.e., candidate imprinted genes. Allelic expression analyses of one candidate imprinted gene, AXL, suggested polymorphic imprinting of AXL in human blood. Allele Allele-specific DNA Methylation Allele-specific Gene Expression Allele-specific Expression Allele-specific Methylation AnCHM Androgenetic Androgenetic Mole Mole Complete Mole Hydatidiform Mole Complete Hydatidiform Mole Androgenetic Hydatidiform Mole Androgenetic Complete Hydatidiform Mole Biparental Tissue Bisulfite Bisulphite Blood Blood DNA Computational Biology DNA Methylation DNA Methylation Profiling Epigenetic Epi-genetic Epigenomic Epi-genomic Expression Expression Regulation Gene Expression Gene Expression Regulation Genetic Genetic Imprint Genetic Imprinting Genomic Genomic DNA Genomic Imprint Genomic Imprinting Human Imprint Imprinting Teratoma Ovarian Teratoma Cystic Teratoma Mature Teratoma Mature Cystic Teratoma Mature Ovarian Teratoma Cystic Ovarian Teratoma Mature Cystic Ovarian Teratoma MCT Methylation Cytosine Methylation Microarray Neoplasm Ovarian Neoplasm Placenta Profiling Promoter Promoter Region Sodium Bisulfite Sodium Bisulphite Uniparental Tissue WB WBC Imprinted Gene Polymorphic Imprinting Parent-of-origin Parent-of-origin-specific Methylation Parent-of-origin-specific Expression 0369 0307

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