Spelling suggestions: "subject:"genomewide"" "subject:"genomehwide""
271 |
INVESTIGATING THE ROLE OF THE 3’ UNTRANSLATED REGION (3’UTR) OF PHO84 IN GENE REGULATION IN BUDDING YEASTYoussef Ahmad Hegazy (14278943) 17 May 2024 (has links)
<p>Gene expression is a complex process by which genetic information flow from genes to proteins. Factors regulating gene expression are diverse ranging from sequence elements on DNA, to various types of RNA, to proteins. These factors are categorized into two main categories, <em>cis</em>-acting elements and <em>trans</em>-acting elements. <em>PHO84</em> is a budding yeast gene that was previously reported to be regulated by its cognate antisense transcripts both in <em>cis</em> and in <em>trans</em>. The antisense transcripts of <em>PHO84</em> are a group of long non-coding RNAs (lncRNAs). In my project, I performed RNA-seq and TT-seq analysis to investigate the global correlation of sense/antisense pairs, which showed that the model of sense/antisense negative correlation is not always true for <em>PHO84</em> locus as well as others. I conducted a series of gene expression analysis experiments to decipher the mechanisms regulating <em>PHO84</em> gene, which showed that the 3’ untranslated region (3’UTR) of <em>PHO84</em> plays a regulatory role in the sense expression, an activity not linked to the antisense transcript levels. I also performed a genetic screen to identify <em>trans</em>-acting protein factors that promote the 3’UTR-dependent regulation at <em>PHO84</em> locus.</p>
<p>Taken together, I provided insights on both <em>cis</em>- and <em>trans</em>-acting elements controlling the expression of the model gene <em>PHO84</em>. Such information can be taken further and be applied to other higher organisms, with possible implication in the identification of key players in human diseases arising from gene expression dysregulation. </p>
|
272 |
<b>A TALE OF TWO </b><b><i>HAP1</i></b><b> OHNOLOGS, </b><b><i>HAP1A</i></b><b> AND </b><b><i>HAP1B</i></b><b>: ROLE IN ERGOSTEROL GENE REGULATION AND STEROL HOMEOSTASIS IN </b><b><i>CANDIDA GLABRATA</i></b><b> UNDER AZOLE AND HYPOXIC CONDITIONS</b>Debasmita Saha (19777971) 02 October 2024 (has links)
<p dir="ltr"><i>Candida glabrata</i> is a member of the gut microbiota that can become an opportunistic pathogen under certain conditions. It is known for its inherent resistance to azole antifungal drugs and its ability to rapidly develop resistance during treatment. However, the regulatory mechanisms that enable this commensal organism to survive in low-oxygen environments, such as the gut, and to develop antifungal resistance when it becomes pathogenic, are not fully understood. In this study, we demonstrate for the first time the roles of two zinc cluster transcription factors in <i>C. glabrata</i>, Hap1A and Hap1B, in contributing to azole drug resistance in both laboratory strains and drug-resistant clinical isolates, adaptation to hypoxia, and resistance to other antifungal drugs like polyenes and echinocandins under specific conditions.</p><p dir="ltr">Azole drugs, which target the Erg11 protein, are widely used to treat <i>Candida</i> infections. The regulation of azole-induced <i>ERG</i> gene expression and activation of drug efflux pumps in <i>C. glabrata</i> has primarily been linked to the zinc cluster transcription factors Upc2A and Pdr1. Here, we investigated the roles of <i>S. cerevisiae</i> Hap1 orthologs, Hap1A and Hap1B, in <i>C. glabrata</i> as direct regulators of <i>ERG</i> genes upon azole exposure.</p><p dir="ltr">Our research shows that deleting <i>HAP1</i> in the yeast model <i>S. cerevisiae</i> increases sensitivity to fluconazole due to the failure to induce <i>ERG11 </i>expression in the <i>hap1Δ</i> mutant compared to the wild-type strain. Although <i>C. glabrata</i> is closely related to <i>S. cerevisiae</i>, a whole genome duplication (WGD) event allowed <i>C. glabrata</i> to retain two HAP1 ohnologs, while <i>S. cerevisiae</i> lost one copy. Through phylogenetic and syntenic analyses, we identified Hap1A and Hap1B in <i>C. glabrata</i> as ohnologs of Hap1 in <i>S. cerevisiae</i>, which is known to regulate <i>ERG</i> gene expression under both aerobic and hypoxic conditions. Interestingly, deleting <i>HAP1B</i> in <i>C. glabrata</i> increased sensitivity to both triazole and imidazole drugs, similar to Hap1 in <i>S. cerevisiae</i>, while deleting <i>HAP1A </i>did not affect azole sensitivity.</p><p dir="ltr">Gene expression analysis revealed that the increased azole sensitivity in the <i>hap1BΔ </i>strain was due to reduced azole-induced <i>ERG</i> gene expression, leading to lower total endogenous ergosterol levels. Additionally, the loss of <i>HAP1B</i> in <i>C. glabrata</i> clinical isolates like SM1 and BG2, as well as in drug-resistant strains like SM3, also led to increased azole hypersusceptibility. While it was already known that losing <i>UPC2A</i> in <i>C. glabrata</i> increases azole sensitivity, our study is the first to demonstrate that the combined loss of both <i>HAP1B </i>and <i>UPC2A</i> makes <i>C. glabrata</i> strains even more sensitive to azoles than losing either gene alone. Additionally, we show that the loss of both <i>HAP1B </i>and the H3K4 histone methyltransferase <i>SET1</i> increases azole hypersensitivity more than the loss of either gene alone.</p><p dir="ltr">Interestingly, the Hap1A protein is barely detectable under aerobic conditions but is specifically induced under hypoxia, where it plays a crucial role in repressing <i>ERG</i> genes. In the absence of Hap1A, Hap1B compensates by acting as a transcriptional repressor. Our RNA sequencing analysis further showed that losing both <i>HAP1A</i> and <i>HAP1B</i> not only affects genes in the ergosterol biosynthesis pathway but also upregulates iron transport-related genes <i>FET3 </i>and <i>FTR1</i>. Moreover, we found that the hypoxic growth defect caused by the loss of both <i>HAP1A</i> and <i>HAP1B</i> is exacerbated when treated with the echinocandin caspofungin and the cell wall-damaging agent calcofluor white, indicating that these Hap1 ohnologs contribute to maintaining cell wall integrity under hypoxic conditions. Since <i>HAP1A</i> transcript levels remain stable under aerobic conditions, we suspect that Hap1A expression is regulated post-transcriptionally.</p><p dir="ltr">Furthermore, we discovered that the simultaneous loss of both HAP1A and HAP1B leads to increased hypersensitivity to the polyene antifungal drug amphotericin B, though the exact mechanism behind this phenotype remains unclear. Altogether, our study is the first to show that Hap1A and Hap1B have evolved distinct roles, enabling <i>C. glabrata</i> to adapt to specific host and environmental conditions.</p>
|
273 |
Human aging in the post-GWAS era: further insights reveal potential regulatory variantsHaider, S.A., Faisal, Muhammad January 2015 (has links)
No / Human aging involves a gradual decrease in cellular integrity that contributes to multiple complex disorders such as neurodegenerative disorders, cancer, diabetes, and cardiovascular diseases. Genome-wide association studies (GWAS) play a key role in discovering genetic variations that may contribute towards disease vulnerability. However, mostly disease-associated SNPs lie within non-coding part of the genome; majority of the variants are also present in linkage disequilibrium (LD) with the genome-wide significant SNPs (GWAS lead SNPs). Overall 600 SNPs were analyzed, out of which 291 returned RegulomeDB scores of 1-6. It was observed that just 4 out of those 291 SNPs show strong evidence of regulatory effects (RegulomeDB score < 3), while none of them includes any GWAS lead SNP. Nevertheless, this study demonstrates that by combining ENCODE project data along with GWAS reported information will provide important insights on the impact of a genetic variant-moving from GWAS towards understanding disease pathways. It is noteworthy that both genome-wide significant SNPs as well as the SNPs in LD must be considered for future studies; this may prove to be crucial in deciphering the potential regulatory elements involved in complex disorders and aging in particular.
|
274 |
Gene-Set Meta-Analysis to Discover Molecular-Biological Pathways Associated to Lung Cancer / Gene-Set Meta-Analysis to Discover Molecular-Biological Pathways Associated to Lung CancerRosenberger, Albert 07 June 2017 (has links)
No description available.
|
275 |
Exclusion de liaison génétique au locus SPAX2 de cas canadiens-français d’ataxie spastiquePoirier St-Georges, Emmanuelle 08 1900 (has links)
Les ataxies héréditaires sont des désordres neuro-dégénératifs qui causent une ataxie comme symptôme primaire; soit une perte de coordination des mouvements volontaires, un sens de l’équilibre déficient et un trouble à la motricité. Elles forment un groupe cliniquement et génétiquement hétérogène. De ce fait, de nombreuses classifications existent basées sur différents critères. Cependant, le consensus actuel veut que le mode de transmission soit le critère premier de classement. On estime la prévalence mondiale des ataxies héréditaires à 6/100 000 bien que ce nombre diffère entre régions. C’est le cas du Québec où la structuration historique du bassin génétique canadien-français a menée à des effets fondateurs régionaux, ce qui a eu comme conséquence de hausser la prévalence régionale de certaines maladies. L’Acadie est également une région canadienne-française avec des effets fondateurs où le taux de prévalence de certaines ataxies héréditaires est plus élevé. Nous avons recruté huit familles canadiennes-françaises provenant de diverses régions du Québec, ayant un lien génétique plus ou moins rapproché avec l’Acadie, dans lesquelles nous avons observé dix cas d’une forme d’ataxie spastique autosomique récessive relativement légère qui a résistée à l’analyse des gènes d’ataxies connues. Nous avons émis l’hypothèse d’être en présence d’une nouvelle forme d’ataxie à effet fondateur pour la population canadienne-française. Afin d’identifier le gène muté responsable de cette ataxie, un criblage génomique des marqueurs SNP pour les individus recrutés fut effectué. Puis, par cartographie de l’homozygotie, une région de 2,5 Mb fut identifiée sur le chromosome 17p13 dans une famille. Une revue de la littérature nous a permis de constater, qu’en 2007, quatre familles nord-africaines atteintes d’une ataxie dénommée SPAX2 qui présentaient des manifestations cliniques semblables avaient déjà été liées au même locus sur le chromosome 17. Afin de supporter notre hypothèse que les malades étaient porteurs de deux copies de la même mutation fondatrice et de cartographier plus finement notre région d’intérêt, les haplotypes de tous les atteints de nos huit familles furent étudiés. Nous avons établie qu’un intervalle de 200 kb (70 SNP), soit du marqueur rs9900036 à rs7222052, était partagé par tous nos participants. Les deux gènes les plus prometteurs des 18 se trouvant dans la région furent séquencés. Aucune mutation ne fut trouvée dans les gènes SLC25A11 et KIF1C. Par la suite, une analyse de liaison génétique stricte avec calcul de LOD score nous a permis d’exclure ce locus de 200 kb comme étant celui porteur du gène muté causant l’ataxie dans la majorité de nos familles. Nous avons donc conclus que malgré qu’une famille soit homozygote pour une grande région du chromosome 17, l’absence d’Informativité des marqueurs SNP dans la région de 200 kb fut responsable de l’apparent partage d’haplotype homozygote. Le travail reste donc entier afin d’identifier les mutations géniques responsables de la présentation ataxique chez nos participants de souche acadienne. / Hereditary ataxias are neurodegenerative disorders which share ataxia as common feature is manifested by a decrease in limb coordination, imbalance and an unsteady gait. They consist in a clinically and genetically heterogeneous group. Many ataxia classifications have been proposed, however, the current consensus is to first characterize them according to their mode of transmission. Hereditary ataxias as a whole have a prevalence of 6/100 000, with variable estimation between country and region. In the Province of Quebec where the French Canadian genetic pool can be seen has a mosaic of regional gene pools there is clear differences in local variation in the prevalence of different ataxias. Acadia is also a French Canadian region with a history of many founder effects and a higher prevalence for certain hereditary ataxias. We recruit 8 French Canadian families from Quebec and with genealogical links with Acadia in which 10 cases manifest a presumably relatively mild autosomal recessive spastic ataxia of unknown etiology. The shared phenotype and Acadian background raised the possibility that they suffered from a new form of ataxia with a founder effect. To identify the mutated gene causing this ataxia, the individuals recruited were genotyped. By homozygosity mapping, a region of 2,5 Mb was identified in one family on chromosome 17p13. A literature review established that in 2007 four North Africans families segregating also a mild spastic ataxia were linked to the same locus on chromosome 17. To support our hypothesis that our patients were carrier of the same founder mutation we look closer at their haplotype in the region. We defined an interval of 200kb (70 SNP) between markers rs9900036 and rs7222052 shared by all affected cases. The two most promising gene in the interval were sequenced. No mutation was found in SLC25A11 and KIF1C. Thereafter a linkage analysis by LOD score excluded the candidate interval of 200 kb in the majority of our families. We conclude that even if in one family exists a large homozygous region on chromosome 17, the lack of informative SNP in the 200 kb region was responsible for the apparent sharing rather than they shared a common mutation. Further work will be necessary to identify the mutate gene causing the ataxia presentation in these cases of mild spastic ataxia.
|
276 |
Patterns of symptoms in major depressive disorder and genetics of the disorder using low-pass sequencing dataLi, Yihan January 2013 (has links)
My thesis aims at identifying both genetic and environmental causes of major depressive disorder (MDD), using a large case-control study: 6,000 Chinese women with recurrent MDD and 6,000 controls. One of the major challenges for conducting genetic research on MDD is disease heterogeneity. The first question addressed is how different MDD is from highly comorbid anxiety disorders. I examine how anxiety disorders predict clinical features of depression and the degree of heterogeneity in their predictive pattern. The second question addressed is whether clinically defined MDD is a single disorder, or whether it consists of multiple subtypes. Results are then compared with and interpreted in the context of Western studies. Furthermore, latent class analysis and factor analysis results are also used in association analysis to explore more genetically homogeneous subtypes. Genetic data were derived using a novel strategy, low pass whole genome sequence analysis. Using genotypes imputed from the sequence data, I show that a cluster of single nucleotide polymorphisms (SNPs) is significantly associated with a binary disease phenotype including only cases with = 4 episodes of MDD, suggesting that recurrence might be an indication of genetic predisposition. The third issue examined is the contribution of rare variants to disease susceptibility. Again using sparse sequence data, I identified exonic sequence variants and performed gene-based analysis by comparing the number of variants between cases and controls in every gene. Furthermore I performed gene enrichment test by combining P values of SNP association tests at different minor allele frequency ranges. Overall, I did not find convincing evidence that rare variants aggregately contribute to disease susceptibility. However, the gene-based analysis resulted in an unexpected finding: cases have an excess of variants in all thirteen-protein coding mitochondrial genes, which was due to copy number differences in the mitochondrial genome. Both human phenotypic data as well as mice experimental data show that the increase in the mitochondrial copy number in cases is due to chronic stress.
|
277 |
Étude sur le rôle des déséquilibres génomiques dans le Syndrome d’Impatiences Musculaires de l’ÉveilGirard, Simon L. 07 1900 (has links)
Le Syndrome d’Impatiences Musculaires de l’Éveil (SIME) est une maladie neurologique caractérisée par un besoin urgent de bouger les jambes. C’est également l’une des causes les plus fréquentes d’insomnie. C’est une maladie très répandue, avec une prévalence de presque 15 % dans la population générale. Les maladies multifactorielles comme le SIME sont souvent le résultat de l’évolution d’une composante génétique et d’une composante environnementale. Dans le cadre du SIME, les études d’association génomique ont permis l’identification de 4 variants à effet modéré ou faible. Cependant, ces quatre variants n’expliquent qu’une faible partie de la composante génétique de la maladie, ce qui confirme que plusieurs nouveaux variants sont encore à identifier. Le rôle des déséquilibres génomiques (Copy Number Variations ou CNVs) dans le mécanisme génétique du SIME est à ce jour inconnu. Cependant, les CNVs se sont récemment positionnés comme une source d’intérêt majeur de variation génétique potentiellement responsable des phénotypes. En collaboration avec une équipe de Munich, nous avons réalisé deux études CNVs à échelle génomique (biopuces à SNP et hybridation génomique comparée (CGH)) sur des patients SIME d’ascendance germanique. À l’aide d’une étude cas-contrôle, nous avons pu identifier des régions avec une occurrence de CNVs différentes pour les patients SIME, comparés à différents groupes contrôles. L’une de ces régions est particulièrement intéressante, car elle est concordante à la fois avec des précédentes études familiales ainsi qu’avec les récentes études d’associations génomiques. / Restless Legs syndrome (RLS) is a neurological disorder characterized by the urge to move one’s limbs. It is also one of the most frequent causes of insomnia. The prevalence of RLS is estimated to be around 15% in the general population. Complexes disorders like RLS are often the result of the evolution of genetic and environmental components. For RLS, recent Genome Wide Association Study (GWAS) have identified four variants with mild to moderate effects. However, those four variants explain only a small part of the disease heritability and thus, we expect that many new variants are still to be found. The impact of Copy-Number Variation (CNV) in the genetic mechanism of RLS is still unknown. However, many studies have recently position the CNVs as a significant source of genetic variation potentially responsible of phenotypes. In collaboration with a team from Munich, we conducted two genome-wide CNVs studies (Genome Wide SNP chips and Comparative Genomic Hybridization (CGH)) on RLS patients from Germany. Using cases-controls studies, we identified regions with a different occurrence of CNVs for RLS patients, compared to different groups of controls. One of these regions is particularly interesting, as it has already been identified by both linkage and association studies.
|
278 |
Malformation Chiari-Like : l’investigation d’une maladie complexe par l’utilisation d’un modèle caninLemay, Philippe 08 1900 (has links)
La malformation de Chiari type 1 (MCI) est une anomalie congénitale de la jonction
cranio-cérébrale fréquente avec une incidence de 1:1280. MCI est caractérisée par la descente des amygdales cérébelleuses à travers le foramen magnum et est souvent associée à la syringomyélie. Les causes de cette maladie semblent être multifactorielles incluant des facteurs génétiques. La MCI est similaire à une malformation fréquente chez la race des
Griffon Bruxellois (GB) connue sous le nom de Malformation Chiari-like (MCL). Le
modèle canin offre l’avantage d’une forte homogénéité génétique réduisant ainsi la
complexité de la maladie et facilitant l’identification d’un locus causatif. Une étude d’association du génome entier sur une cohorte de 56 GB suivie d’une cartographie fine sur une cohorte de 217 GB a identifié un locus fortement associé à la MCL sur le chromosome 2 (22 SNPs, valeur P= 7 x 10-8) avec un haplotype de 1.9 Mb plus fréquent chez les non affectés. Une seconde étude d’association du génome entier sur une cohorte de 113 GB a permis d’identifier un 2
ème locus fortement associé à la MCL sur le chromosome 13 (25 SNPs , valeur P= 3 x 10
-7) avec un haplotype de 4 Mb surreprésenté chez les non affectés. Ces régions candidates constituent la première étape vers l’identification de gènes causatifs pour la MCL. Notre étude offre un point d’entrée vers une meilleure compréhension des mécanismes moléculaires sous-tendant la pathogénèse de la MCI humaine. / Chiari I malformation (CMI) represents a common congenital abnormality of the
craniocerebral junction with an estimated incidence of 1 in 1280. CMI is characterized by a descent of the cerebellar tonsils into the foramen magnum, often in association with
syringomyelia. The developmental defect in CMI is thought to be the result of an
underdeveloped occipital bone and small posterior fossa. The etiology of CMI is thought to be multifactorial involving genetic factors. CMI in humans is similar to a condition in the dog called Chiari-like malformation (CM) that is particularly common in the Griffon Bruxellois (GB) breeds. A genome wide association study on a 56 GB cohort followed by a fine mapping in a 217 GB cohort have identified a locus on chromosome 2 that was strongly associated with CM (22 SNPs, P value= 7 x 10-8). Haploview analysis of this locus identified a haplotype of 1.9 Mb that was more frequent in non-affected dogs. A second genome wide association study in a 113 GB cohort lead to the identification of another locus on chromosome 13 that was strongly associated with CM (25 SNPs , P value= 3 x 10-7). Analysis of this region identified a 4Mb haplotype that was more frequent in non-affected dogs. Our study constitutes the first essential step towards identification of the causative genes in CM. Our study provides an entry point for better understanding of the molecular genetic mechanisms underlying the pathogenesis of human CMI.
|
279 |
Genetic determinants of clinical heterogeneity in sickle cell diseaseGalarneau, Geneviève 03 1900 (has links)
L’anémie falciforme est une maladie monogénique causée par une mutation dans le locus de la β-globine. Malgré le fait que l’anémie falciforme soit une maladie monogénique, cette maladie présente une grande hétérogénéité clinique. On présume que des facteurs environnementaux et génétiques contribuent à cette hétérogénéité. Il a été observé qu’un haut taux d’hémoglobine fœtale (HbF) diminuait la sévérité et la mortalité des patients atteints de l’anémie falciforme. Le but de mon projet était d’identifier des variations génétiques modifiant la sévérité clinique de l’anémie falciforme. Dans un premier temps, nous avons effectué la cartographie-fine de trois régions précédemment associées avec le taux d’hémoglobine fœtale. Nous avons ensuite effectué des études d’association pan-génomiques avec deux complications cliniques de l’anémie falciforme ainsi qu’avec le taux d’hémoglobine fœtale. Hormis les régions déjà identifiées comme étant associées au taux d’hémoglobine fœtale, aucun locus n’a atteint le niveau significatif de la puce de génotypage. Pour identifier des groupes de gènes modérément associés au taux d’hémoglobine fœtale qui seraient impliqués dans de mêmes voies biologiques, nous avons effectué une étude des processus biologiques. Finalement, nous avons effectué l’analyse de 19 exomes de patients Jamaïcains ayant des complications cliniques mineures de l’anémie falciforme. Compte tenu de la taille des cohortes de réplication disponibles, nous n’avons pas les moyens de valider statistiquement les variations identifiées par notre étude. Cependant, nos résultats fournissent de bons gènes candidats pour des études fonctionnelles et pour les réplications futures. Nos résultats suggèrent aussi que le β-hydroxybutyrate en concentration endogène pourraient influencer le taux d’hémoglobine fœtale. De plus, nous montrons que la cartographie-fine des régions associées par des études pan-génomiques peut identifier des signaux d’association additionnels et augmenter la variation héritable expliquée par cette région. / Sickle cell disease is a monogenic disease caused by a mutation in the β-globin locus. Although it is a monogenic disease, it shows a high clinical heterogeneity. Environmental and genetic factors are thought to play a role in this heterogeneity. It has been observed that a high fetal hemoglobin (HbF) levels correlates with a diminution of the severity and mortality of patients with sickle cell disease. The goal of my project was to identify genetic modifiers of the clinical severity of sickle cell disease. First, I performed the fine-mapping of three regions previously associated with HbF levels. Second, I performed genome-wide association studies with two clinical complications of sickle cell disease as well as with HbF levels. Since no new loci reached array-wide significance for HbF levels, I performed a pathway analysis to identify additional HbF loci of smaller effect size that might implicate shared biological processes. Finally, I performed the analysis of 19 whole exomes from Jamaican sickle cell disease patients with very mild complications. In conclusion, given the sample size of the replication cohorts available, we do not currently have the means to statistically validate the association signals. However, these results provide good candidate genes for functional studies and for future replication. Our results also suggest that β-hydroxybutyrate in endogenous levels could influence HbF levels. Furthermore, we show that fine-mapping the loci associated in genome-wide association studies can identify additional signals and increase the explained heritable variation.
|
280 |
Genetic risk factors of chronic insomnia disorderEl Gewely, Maryam 08 1900 (has links)
No description available.
|
Page generated in 0.0379 seconds