Global ETD Search

21	Skin Barrier Function and mRNA Expression Profiles in Patients with Atopic Dermatitis, Ichthyosis Vulgaris, and X-linked Recessive Ichthyosis : Aetiopathogenic Differences and the Impact of Moisturizing Treatment Sturesdotter Hoppe, Torborg January 2013 (has links) Atopic dermatitis (AD), ichthyosis vulgaris (IV), and X-linked recessive ichthyosis (XLRI) are characterized by dry skin and impaired skin barrier. AD and IV are related to loss-of-function mutations in FLG (encoding filaggrin), whereas XLRI is caused by deletions or inactivating mutations in the steroid sulphatase gene (STS). Patients regularly use moisturizing creams, but little is known about the creams’ effects on the skin barrier. The present work combines objective scorings, non-invasive techniques, and molecular analyses of skin biopsies to characterize the skin in 57 patients with AD, IV, or XLRI, and in 14 healthy controls. Patients were classified according to their FLG and STS mutation status: AD with FLG+/+ (n = 14), AD with FLG+/– (n = 14), AD/IV with FLG–/– (n = 15), and XLRI with STS– (n = 14), as well as one man with a novel point mutation. Assessments were conducted at baseline and after four weeks of treatment with three different moisturizers applied to volar forearm skin. At baseline, dryness scoring and non-invasive assessments verified impaired skin barrier function in all patients. In patients with AD/IV, microarray analysis identified 300–3000 up- or downregulated mRNA transcripts involved in signalling pathways important for inflammation and barrier repair. The skin phenotype and number of altered transcripts were correlated with the FLG mutation status, with FLG–/– patients displaying the highest transepidermal water loss (TEWL) and the most altered transcript levels. In contrast, despite an equally dysfunctional skin barrier, only limited changes in mRNA transcripts occurred in XLRI patients. Treatment with moisturizers improved skin dryness similarly in all groups, but TEWL behaved differently: it decreased slightly in the AD/IV group and increased in the XLRI group, especially after urea treatment. Only minute effects on skin pH and mRNA expression were observed. In conclusion, FLG mutations elicit pro-inflammatory mechanisms probably aimed at restoring barrier competence. This does not occur in patients with XLRI, presumably because STS deficiency automatically increases the barrier thickness. Moisturizing treatment improves skin dryness in patients with AD, IV, or XLRI, but does not seem to normalize the altered epidermal gene expression profile in AD/IV patients. atopic dermatitis ichthyosis vulgaris X-linked recessive ichthyosis skin barrier function moisturizers transepidermal water loss gene expression
22	Genetic and Molecular Studies of Two Hereditary Skin Disorders Dahlqvist, Johanna January 2011 (has links) Monogenic disorders, i.e., disorders caused by mutations in a single gene, are rare and clinically heterogeneous conditions. Identification of the genetic cause of monogenic traits can bring new insights into molecular pathways and disease mechanisms. The aims of the present study were to identify the mutant genes in two autosomal recessive skin disorders and to characterize the functions of the mutated genes. In order to identify candidate genes for the two disorders whole-genome SNP analysis, homozygosity mapping and gene sequencing were used. Autosomal recessive congenital ichthyosis (ARCI) is a group of disorders characterized by extensive scaling and redness of the skin. A subgroup of ARCI patients (n=27) was selected based on specific ultrastructural aberrations in their skin, revealed by electron microscopy. Mutations were identified in the Ichthyin gene in 93% of the selected patients, indicating a strong association between mutant Ichthyin and the specific morphological abnormalities. Ichthyin mRNA levels were shown to increase during keratinocyte differentiation in cells from healthy and affected individuals. Electron microscopy revealed a localization of ichthyin protein to keratins and desmosomes in epidermis. Staining of epidermal lipids identified aberrant lipid aggregates in skin sections of patients with Ichthyin mutations, indicating a role for Ichthyin in epidermal lipid metabolism. In twelve KLICK syndrome patients with ichthyosis, palmoplantar keratoderma and keratotic striae on joints, a single-nucleotide deletion was identified in the 5’ region of the proteasome maturation protein (POMP) gene. The deletion caused an increase in the proportion of POMP transcripts with long 5’ UTR’s in patient keratinocytes. Immunohistochemical analysis of differentiated skin cell layers revealed aberrant expression of POMP, proteasome subunits and the skin protein filaggrin in patients. CHOP expression, associated with endoplasmic reticulum stress, was increased in the same layers. siRNA silencing of POMP in cell cultures reduced proteasome subunit levels and induced expression of CHOP. The results indicate that the mutation in KLICK patients causes POMP and proteasome insufficiency with subsequent cellular stress. This study conclusively contributes to the understanding of epidermal physiology and the pathogenesis of two inherited skin diseases. Monogenic disorder KLICK syndrome Ichthyin POMP proteasome epidermal differentiation Clinical genetics Klinisk genetik
23	Análise molecular do gene CRTAP através da técnica de PCR-SSCP-sequenciamento em pacientes com osteogênese imperfeita do Espírito Santo Almeida, Lorena Schneider 28 February 2013 (has links) Made available in DSpace on 2016-12-23T13:49:03Z (GMT). No. of bitstreams: 1 Lorena Schneider Almeida.pdf: 683869 bytes, checksum: 550e76756dab14ae47e0e2440cfba6ca (MD5) Previous issue date: 2013-02-28 / The Osteogenesis Imperfecta (OI) is a genetic disease characterized by structural defects of type I collagen protein or by reducing its biosynthesis causing decreased bone mass and predisposition to fractures and bone deformities. Approximately 90% of individuals with OI exhibit autosomal dominant inheritance caused by mutations in the genes COL1A1 and COL1A2. However, the number of genes linked to autosomal recessive forms of OI is increasing in the literature. The CRTAP gene was the second identified causing recessive inheritance OI. This gene has 6622 bp, seven exons and encodes a protein of 46.5 kDa. The CRTAP encoding the protein cartilage associated (CRTAP) which is part of the collagen 3-hydroxylation complex, responsible for post-translational modifications during the biosynthesis of collagen molecule. CRTAP mutations are related to severe and lethal form of the disease. The target of this research was evaluating the exons of CRTAP and its adjacent regions in OI patients from Espírito Santo thought the Single-Stranded Conformation Polymorphism (SSCP) screening of mutations and sequencing. We studied 24 patients with clinical diagnosis of OI from Hospital Infantil Nossa Senhora da Glória de Vitória, Brazil. The patients/ ages ranged from 2 to 16 years (median: 14.5). The sex proportion of the patients was 15 males and 9 females. Eleven patients have mild clinical symptoms of the disease, 5 show moderate symptoms and 9 were severe cases. The lethal OI cases were not obtained by methodological difficulties. We found the polymorphisms c.534C> T previously reported in exon 2 of the CRTAP gene in patients from sample. No pathogenic mutations were found in this study. The results of this study suggest that mutations in CRTAP are rare in ES population. These data may assist in developing more efficient methodological strategies for molecular diagnosis of OI / A Osteogênese Imperfeita (OI) é uma doença genética caracterizada por defeitos estruturais da proteína do colágeno tipo I ou por redução da sua biossíntese causando diminuição da massa óssea e a predisposição a fraturas e deformidades ósseas. Aproximadamente 90% dos indivíduos com OI apresentam herança autossômica dominante causada por mutações nos genes COL1A1 ou COL1A2. Contudo, é crescente o número de genes ligados à herança autossômica recessiva da OI descritos na literatura. O gene CRTAP foi o segundo gene identificado causando OI com herança recessiva. Este gene possui 6.622 pb, 7 exons e codifica uma proteína de 46,5 KDa. O gene CRTAP codifica a proteína da cartilagem associada (CRTAP) que faz parte do complexo prolil 3-hidroxilação, responsável por modificações pós-traducionais fundamentais durante a biossíntese da molécula de colágeno. Mutações no gene CRTAP estão relacionadas à forma grave ou letal da doença. Esta pesquisa teve como objetivo avaliar as porções codificantes do gene CRTAP e suas regiões adjacentes em pacientes com OI do estado do Espírito Santo por meio da técnica de triagem de mutações de Polimorfismo Conformacional de Fita Simples (SSCP) e sequenciamento. Foram estudados 24 pacientes com diagnóstico clínico de OI do Hospital Infantil Nossa Senhora da Glória de Vitória, Brasil. As idades dos pacientes variaram de 2 a 16 anos (mediana: 14,5 anos) sendo 15 indivíduos do sexo masculino e 9 do sexo feminino, 11 pacientes apresentam a forma leve da doença, 5 a forma moderada e 9 a forma grave da doença. Os casos letais de OI não foram obtidos por dificuldades metodológicas. Foi encontrado o polimorfismos c.534C>T no exon 2 do gene CRTAP, previamente relatado na literatura, em pacientes da amostra. Não foram identificadas mutações patogênicas neste estudo. Os resultados desse trabalho sugerem que mutações no gene CRTAP são raras na população com OI do ES, corroborando dados da literatura. Esses dados poderão auxiliar na elaboração de estratégias metodológicas mais eficientes para o diagnóstico molecular de OI CRTAP SSCP Espírito Santo CRTAP SSCP Espírito Santo CNPQ::OUTROS
24	Spotřeba, cenová očekávání a deflačně-recesní spirála / Consumption, price expectations and deflatively-recessive spiral Plný, Petr January 2017 (has links) This thesis examines the relationship between price expectations and current consumption. Especially, whether the postponement of final consumption expenditure by households, as a result of their declining price expectations; which may be a deflatively-recessive spiral starter; coincides with economic theory and practice. Based on this, appropriate economic policy recommendations can be drawn. The analysis in the framework of intertemporal consumer model of two periods extended by inflation and the risk confirms this hypothesis. Price expectations positively affect current consumption through the intertemporal substitution effect of real interest rate changes. However, certain assumptions must be fulfilled. Especially, the economy must be in a fixed nominal interest rate environment, the substitution effect must not be offset by the effect of a change in the expected real disposable income or the income effect of the change in the real interest rate and the households must have a higher disposable income so that they can afford to postpone consumption. These findings coincide with the conclusions of the empirical analyzes mentioned in this thesis.
25	Functional Analysis Of Primary Microcephaly Gene Product ASPM Singhmar, Pooja 06 1900 (has links) Autosomal recessive primary microcephaly (MCPH) is defined by congenital microcephaly and associated mental retardation with head circumference of the affected individual at least 3 standard deviations below age- and sex-means. It is a disorder of abnormal fetal brain growth which is a consequence of impaired neurogenesis. It is genetically heterogeneous with seven known loci and genes for all the seven loci have been identified: MCPH-1-MCPH1, MCPH2-WDR62, MCPH3-CDK5RAP2, MCPH4-CEP152, MCPH5-ASPM, MCPH6-CENPJ, and MCPH7-STIL. All the seven MCPH proteins localize at the centrosome. Apart from MCPH, many other proteins associated with the phenotype microcephaly have been localized to the centrosome or linked to it functionally. For example, Microcephalic osteodysplastic primordial dwarfism type II protein PCNT and Seckel syndrome protein ATR are also centrosomal proteins. All of the above findings show the importance of centrosomal proteins as the key players in neurogenesis and brain development. However, the exact mechanism as to how the loss-of-function of these proteins leads to microcephaly remains to be elucidated. The study of MCPH genes can also provide insights into the basics of neurogenesis that lead to a normal brain size. The most common cause of MCPH is mutations in the ASPM (abnormal spindle-like, microcephaly-associated protein) gene. The main aim of this study was to gain insight into the function of ASPM using the yeast two-hybrid technique. The main findings of the study are listed below. To find novel interacting proteins for SPM, a GAL4 based yeast two-hybrid system was used. The 3,477 amino acid long ASPM was divided into eight different baits and each bait was individually used for screening a human fetal brain cDNA library cloned in the pACT2 vector. To generate baits, the different regions were amplified from human fetal brain cDNA and cloned in-frame with the GAL4-DNA binding domain in the pGBKT7 vector. Screening with a C-terminus ASPM bait (pGBKT7-CTR) identified Angelman syndrome protein ubiquitin protein ligase E3A (UBE3A) as an ASPM interactor. A region of UBE3A from amino acids 639-875 was found to interact with ASPM. The identification of UBE3A as an ASPM interacting partner was interesting as more than 80% of Angleman syndrome patients are reported to have microcephaly. Screening with the baits pGBKT7-1.4 kb ASPM and pGBKT7-2.1 kb ASPM harboring parts of IQ domain identified calmodulin as an ASPM interating partner. The full length calmodulin was found to interact with the IQ domain of ASPM. The interactions identified in the yeast two-hybrid assay were confirmed in vivo by co-immunoprecipitation studies. For this, a rabbit polyclonal anti-ASPM antibody was raised against the N-terminal region of ASPM (from amino acids 544-1059). The specificity of the antibody was tested by Western blot analysis and immunofluorescence microscopy. ASPM antibody recognized the 410 KDa fulllength ASPM protein in lysates from human fetal tissues and different cell lines. Immunofluorescence analysis in HEK293 cells with the antibody revealed centrosomal staining of ASPM throughout mitosis and midbody staining in cytokinesis, as reported previously. Using antibodies against ASPM and UBE3A and human fetal kidney lysate, ASPM and UBE3A interaction was confirmed in vivo by co-immunoprecipitation. The interaction between ASPM and calmodulin was confirmed similarly. The relevance of the interaction between ASPM and UBE3A was pursued further Like ASPM, UBE3A localized to the centrosome throughout mitotic progression. ASPM levels were found to be unaffected upon overexpression of UBE3A in HEK293 cells, indicating that ASPM is not degraded by a UBE3A-dependent proteasomal pathway or the degradation may be spatial-temporal control. Further, immunofluorescence analysis of UBE3A overexpressing HEK293 cells revealed that UBE3A does not affect either the ASPM localization or its protein level at the centrosome. Synchronization of HEK293 cells in different cell cycle phases revealed that UBE3A is a cell cycle dependent protein and its level peaks in mitosis To explore the functional role of UBE3A’s increased level in mitosis, UBE3A was depleted in HEK293 cells with a shRNA construct and stable clones were generated. HEK293- UBE3A shRNA knockdown cells were examined for normal mitotic progession and spindle defects. There was a 3.81- to 5.52-fold increase in the frequency of anaphase/telophase cells with missegregated chromosomes in UBE3A knockdown clones as compared to scrambled clones. Hence, we identified a definitive role of UBE3A in chromosome segregation. Defective chromosome segregation has been reported in many studies associated with microcephaly-related proteins. Interestingly, chromosome malfunctioning has also been reported in Drosophilia asp mutants (ASPM orthologue) and Celegans aspm-1 knockdown cells. Therefore, the loss of both ASPM and UBE3A leading to chromosome segregation defects reveals the existence of a molecular pathway common to both ASPM and UBE3A As a consequence of chromosome missegregation, UBE3A knockdown cells were found to undergo abnormal cytokinesis and apoptosis. The percentage of apoptotic cells in UBE3A knockdown clones was 1.25- to 3.04-fold higher as compared to scrambled clones. Interestingly, an extensive apoptosis has been found in the neural folds of MCPH7 gene STIL null mice embryos. Thus, the present study links Angleman syndrome protein UBE3A to ASPM, centrosome and mitosis for the first time. Microcephaly Gene MCPH Genes Microcephaly Protein Neurology
26	Architecture génétique des troubles du spectre autistique dans les îles Féroé / Genetic Architecture of Autism Spectrum Disorders in the Faroe Islands Carton-Buonafine, Coralie 03 July 2018 (has links) Les Troubles du Spectre Autistique (TSA) forment un groupe hétérogène de troubles neurodéveloppementaux caractérisés par des déficits de l’interaction sociale et de la communication ainsi que la présence de comportements répétitifs et d’intérêts restreints. Les TSA affectent environ un individu sur 68. Ils se manifestent généralement durant les trois premières années de vie mais, pour certains cas, les symptômes sont reconnus plus tard, quand les exigences sociales augmentent. Les études de jumeaux et la récurrence des troubles dans certaines familles démontrent l’importance des facteurs génétiques dans la vulnérabilité aux TSA. Cependant, l’architecture génétique des TSA reste difficile à caractériser car elle est extrêmement hétérogène et il est très compliqué d’identifier, pour chacun des patients, la combinaison d’allèles à risque. Notre laboratoire a identifié la première voie génétique associée aux TSA – la voie NLGN-NRXN-SHANK- qui joue un rôle clé dans la plasticité synaptique. Il existe un nombre de plus en plus grand de gènes associés aux TSA mais peu d’études ont été réalisées sur des cohortes épidémiologiques et dans des populations isolées. L'analyse des données de génotypage et de séquençage d’exome de 357 individus issus des îles Féroé (36 patients, 136 apparentés des patients, 185 témoins) nous a permis de mettre en évidence un nombre plus important de Variations du Nombre de Copies (CNVs), un coefficient de consanguinité supérieur, un plus grand nombre de mutations homozygotes et délétères ainsi qu’un Polygenic Risk Score (ASD-PRS) supérieur chez les patients TSA comparés aux individus témoins. Notre analyse confirme le rôle de plusieurs loci associés aux TSA (NRXN1, ADNP, délétion 22q11) et a permis d’identifier de nouvelles mutations tronquant la protéine (GRIK2, ROBO1, NINL et IMMP2L) ou récessives (KIRREL3 et CNTNAP2) affectant des gènes déjà associés aux TSA. Nous avons également mis en évidence trois nouveaux gènes candidats jouant un rôle important dans la plasticité synaptique (RIMS4, KALRN et PLA2G4A) à travers la présence de mutations de novo délétères chez des patients sans déficience intellectuelle. Au total, nous avons pu identifier une cause génétique expliquant les TSA pour 11% des patients et au moins une mutation fortement délétère dans des gènes candidats chez 39% des patients. Aucune cause génétique n'a pu être trouvée chez 50% des patients. En résumé, notre étude permet de mieux comprendre l’architecture génétique des TSA dans les populations isolées en soulignant à la fois l'impact des variants communs et des variants rares mais également en révélant le rôle de nouveaux gènes pour les TSA. Ces gènes codent pour des protéines essentielles pour le neurodéveloppement et l’identification de ces facteurs impliqués dans la formation et l'entretien des synapses pourrait ainsi fournir de nouvelles pistes afin de mieux comprendre les bases biologiques des TSA et de découvrir de nouvelles stratégies thérapeutiques. Il est cependant nécessaire de comprendre plus avant l'impact de la combinaison de différentes mutations sur la fonction neuronale afin de mieux caractériser l’architecture génétique des TSA. / Autism Spectrum Disorders (ASDs) are a heterogeneous group of neurodevelopmental disorders characterized by deficits in social interaction and communication as well as the presence of repetitive behaviors and restricted interests. ASD affects approximately one in 68 individuals. They usually occur during the first three years of life but, in some cases, symptoms are recognized later, when social demands increase. There is a strong genetic component to ASD, as indicated by the recurrence risk in families and twin studies. However, the genetic architecture of ASD remains largely unknown because of its extreme heterogeneity. It is very challenging to identify, for each patient, the combination of risk alleles. Our laboratory identified the first genetic pathway associated with ASD – the NLGN-NRXN-SHANK pathway – playing a key role in synaptogenesis during development. There are an increasing number of genes associated with ASDs but few studies have been conducted on epidemiological cohorts and isolated populations. Here, we investigated 357 individuals from the Faroe Islands including 36 patients with ASD, 136 of their relatives and 185 non-ASD controls. Data from SNP array and whole exome sequencing revealed that patients had a higher burden of copy-number variants, higher inbreeding status, higher load of homozygous deleterious mutations, and a higher ASD polygenic risk score compared to controls. We confirmed the role of several ASD-associated loci (NRXN1, ADNP, 22q11 deletion) and identified new truncating (GRIK2, ROBO1, NINL and IMMP2L) or recessive variants (KIRREL3 and CNTNAP2) affecting genes already associated with ASD. We have also identified three novel candidate genes playing key roles in synaptic plasticity (RIMS4, KALRN and PLA2G4A) carrying deleterious de novo mutations in patients without intellectual disability. Overall, for 11% of individuals with ASD, a known genetic cause was identified, for 39% at least one strongly deleterious mutation was identified in a compelling candidate gene and for 50% no obvious genetic cause was detected. In summary, our study provides a better understanding of the genetic architecture of ASD in isolated populations by highlighting both the impact of common and rare variants but also by revealing the role of new genes for ASD. These genes code for proteins that are essential for neurodevelopment. The identification of these factors involved in synapse formation and maintenance could provide new leads to better understand the biological basis of ASD and find novel therapeutic strategies. However, it is necessary to further understand the combined impact of different mutations on neuronal function in order to better characterize the genetic architecture of ASD. Troubles du Spectre Autistique (TSA) Consanguinité Mutations de novo Mutations récessives Autism Spectrum Disorders (ASD) Inbreeding De novo variants Recessive variants
27	Identification of causal factors for recessive lethals in dairy cattle with special focus on large chromosomal deletions / Etude de délétions chromosomiques et de variants génétiques responsables de mortalité embryonnaire chez les bovins laitiers Uddin, Md Mesbah 17 September 2019 (has links) L'objectif général de cette thèse est d'identifier les variants causaux ou, à défaut, un ensemble de marqueurs prédictifs - qui présentent un déséquilibre de liaison élevé avec les variants causaux - pour la fertilité des vaches laitières. Nous avons abordé cet objectif général dans cinq articles: (i) décrit une approche systématique de cartographie des variants létaux récessifs chez les bovins Normands français basée sur la recherche de déficit en haplotypes homozygotes (HHD). Cette étude montre l’influence de la taille de l’échantillon, de la qualité des génotypes, de la qualité du phasage des génotypes en haplotypes et de l’imputation, de l’âge de l’haplotype et enfin, de la définition des seuils de signification prenant en compte les tests multiples, sur la découverte et la reproductibilité des résultats de HHD. Elle illustre également l’importance de la cartographie fine avec les données de généalogie et de séquence de génome entier (WGS), l’annotation intégrative (entre espèces) pour hiérarchiser les mutations candidates et, enfin, le génotypage à grande échelle de la mutation candidate, pour valider ou invalider les mutations initiales. (ii) décrit une cartographie à haute résolution de grandes délétions chromosomiques de séquences du génome dans une population de 175 animaux appartenant à trois races laitières nordiques. Cette étude utilise trois approches différentes pour valider les résultats de la cartographie. Le chapitre décrit les propriétés génétiques des populations et l’importance fonctionnelle des délétions identifiées. (iii) traite de trois questions liées à l’imputation de variants structuraux, ici de délétions chromosomiques importantes: la disponibilité des génotypes de délétion, la taille du panel de référence d'haplotypes et, enfin, l’imputation elle-même. Pour aborder les deux premières questions, cette étude décrit une approche basée sur un modèle de mélange gaussien dans laquelle les données de profondeur de lecture provenant de fichiers au format VCF (variant call format) sont utilisées pour génotyper un locus de délétion connu, en l’absence d’information sur la séquence brute. Enfin, il présente un pipeline pour l'imputation conjointe de variants WGS et de grandes délétions chromosomiques. (iv) décrit des études d'association pangénomiques de la fertilité femelle dans trois races de bovins laitiers nordiques à l'aide de variants WGS imputés et de grandes délétions chromosomiques. Cette étude concerne huit caractères de fertilité et utilise des analyses d'association mono-marqueur, conditionnelles et conjointes. Cette étude montre qu’une surestimation, ou « inflation », des statistiques de test peut être observée même après correction pour la stratification de la population à l'aide de composantes principales génomiques et pour les structures familiales à l'aide de matrices de relations génomiques. Ce biais était connu pour les caractères très polygéniques. Enfin, cette étude présente plusieurs locus de traits quantitatifs (QTL) nouveaux et confirme plusieurs autres déjà connus. Elle souligne également l’importance d’inclure les grandes délétions (imputées) pour la cartographie par association des caractères de fertilité. (v) décrit la prédiction des valeurs génomiques de fertilité (ou indice de fertilité) à l'aide de génotypes à puces SNP, de QTL sélectionnés et de délétions chromosomiques importantes. En utilisant la méthode de meilleure prédiction linéaire sans biais génomique (GBLUP) avec une ou plusieurs matrices de relations génomiques dérivées d'un ensemble de marqueurs sélectionnés, cette étude rapporte une précision de prédiction améliorée. Cette étude met également en évidence l’influence de la sélection des marqueurs les plus prédictifs, en particulier pour une race ayant une population d’apprentissage réduite, sur la précision des prédictions génomiques. Enfin, les résultats démontrent que les grandes délétions ont en général un pouvoir prédictif élevé. / The overall aim of this PhD thesis is to identify causal variants for recessive lethal mutations and select a set of predictive markers that are in high linkage-disequilibrium with the causal variants for female fertility in dairy cattle. We addressed this broad aim under five articles: (i) describes a systematic approach of mapping recessive lethals in French Normande cattle using homozygous haplotype deficiency (HHD). This study shows the influence of sample size, quality of genotypes, quality of (genotype) phasing and imputation, age of haplotype (of interest), and last but not the least, multiple testing corrections, on discovery and replicability of HHD results. It also illustrates the importance of fine-mapping with pedigree and whole-genome sequence (WGS) data, (cross-species) integrative annotation to prioritize candidate mutation, and finally, large-scale genotyping of the candidate mutation, to validate or invalidate initial results. (ii) describes a high-resolution population-scale mapping of large chromosomal deletions from whole-genome sequences of 175 animals from three Nordic dairy breeds. This study employs three different approaches to validate identified deletions. Next, it describes population genetic properties and functional importance of these deletions. (iii) deals with three main issues related to imputation of structural variants, in this case, large chromosomal deletions, e.g. availability of deletion genotypes, size of haplotype reference panel, and finally, imputation itself. To address the first two issues, this study describes a Gaussian mixture model-based approach where read-depth data from the variant call format (VCF) file is used to genotype a known deletion locus, without the need for raw sequence (BAM) file. Finally, it presents a pipeline for joint imputation of WGS variants along with large chromosomal deletions. (iv) describes genome-wide association studies for female fertility in three Nordic dairy cattle breeds using imputed WGS variants including large chromosomal deletions. This study is based on the analyses of eight fertility related traits using single-marker association, conditional and joint analyses. This study illustrates that inflation in association test-statistics could be seen even after correcting for population stratification using (genomic) principal components, and relatedness among the samples using genomic relationship matrices; however, this was known for traits with strong polygenic effects, among other factors. Finally, mapping of several new quantitative trait loci (QTL), along with the previously known ones, are reported in this study. This study also highlights the importance of including (imputed) large deletions for association mapping of fertility traits. (v) describes prediction of genomic breeding values for fertility using SNP array-chip genotypes, selected QTL and large chromosomal deletion. Using genomic best linear unbiased prediction (GBLUP) method with one or several genomic-relationship matrices derived from a set of selected markers, this study reports higher prediction accuracy compared with previous report. This study also highlights the influence of selecting markers with best predictability, especially for a breed with small training population, in accuracy of genomic prediction. The results demonstrate that large deletions in general have a high predictive performance. Mortalité embryonnaire Variations structurales Bovins laitiers Sélection génomique Recessive lethal Structural variants Dairy cattle Genomic prediction 636.0821
28	"Análise do padrão de expressão do produto de PKHD1, o gene mutado na doença renal policística autossômica recessiva" / Analysis of the expression pattern of the PKHD1 gene product, mutated in autossomal recessive polycystic kidney disease Menezes, Luis Fernando Carvalho de 15 June 2004 (has links) O gene PKHD1, mutado na doença renal policística autossômica recessiva, apresenta um padrão de splicing complexo associado a múltiplos transcritos alternativos. Neste trabalho estudamos o perfil de expressão de seu produto, poliductina. Análises por western blot revelaram produtos putativos de membrana de > 440 kDa e ~230 kDa, e de ~140 kDa em frações solúveis de rim, fígado e pâncreas. Estudos imunoistoquímicos mostraram marcação em ductos coletores renais e porção ascendente espessa da alça de Henle, em epitélios ductais biliar e pancreático e, no período embrionário, em broto ureteral, ductos biliar e pancreático e glândula salivar. Análises por imunofluorescência e microscopia imunoeletrônica sugerem que poliductina se localize em cílio apical primário, membrana apical e citoplasma de células do ducto coletor. Nossos resultados indicam que PKHD1 codifica isoformas de membrana e solúveis / PKHD1, the gene mutated in autosomal recessive polycystic kidney disease, presents a complex splicing pattern, associated with multiple alternative transcripts. In this work we have studied the expression profile of its product, polyductin. Western blot analysis revealed putative membrane products of > 440 kDa and 230 kDa, and of ~140 kDa in soluble fractions in kidney, liver and pancreas. Immunohistochemistry studies showed staining in renal collecting duct and thick ascending limb of Henle, in biliary and pancreatic ductal epithelia and, in the embryonic period, in ureteric bud, biliary and pancreatic ducts and salivary gland. Immunofluorescence and immunoelectron microscopy studies suggest that polyductin localizes to primary apical cilium, apical membrane and cytoplasm of collecting duct cells. Our data indicate that PKHD1 codifies membrane and soluble isoforms BLOTTING WESTERN/methods CÍLIOS/patologia IMMUNOHISTOCHEMISTRY/methods IMUNOHISTOQUÍMICA/métodos ISOFORMAS DE PROTEÍNAS/análise KIDNEY TUBULES COLLECTING/pathology MEMBRANE PROTEINS/analysis MICROSCOPY FLUORESCENCE/methods MICROSCOPY IMMUNOELECTRON/methods PROTEIN ISOFORMS/analysis PROTEÍNAS DE MEMBRANA/análise TÚBULOS COLETORES RENAIS/fisiopatologia TÚBULOS COLETORES RENAIS/patologia WESTERN BLOTTING/métodos
29	"Análise do padrão de expressão do produto de PKHD1, o gene mutado na doença renal policística autossômica recessiva" / Analysis of the expression pattern of the PKHD1 gene product, mutated in autossomal recessive polycystic kidney disease Luis Fernando Carvalho de Menezes 15 June 2004 (has links) O gene PKHD1, mutado na doença renal policística autossômica recessiva, apresenta um padrão de splicing complexo associado a múltiplos transcritos alternativos. Neste trabalho estudamos o perfil de expressão de seu produto, poliductina. Análises por western blot revelaram produtos putativos de membrana de > 440 kDa e ~230 kDa, e de ~140 kDa em frações solúveis de rim, fígado e pâncreas. Estudos imunoistoquímicos mostraram marcação em ductos coletores renais e porção ascendente espessa da alça de Henle, em epitélios ductais biliar e pancreático e, no período embrionário, em broto ureteral, ductos biliar e pancreático e glândula salivar. Análises por imunofluorescência e microscopia imunoeletrônica sugerem que poliductina se localize em cílio apical primário, membrana apical e citoplasma de células do ducto coletor. Nossos resultados indicam que PKHD1 codifica isoformas de membrana e solúveis / PKHD1, the gene mutated in autosomal recessive polycystic kidney disease, presents a complex splicing pattern, associated with multiple alternative transcripts. In this work we have studied the expression profile of its product, polyductin. Western blot analysis revealed putative membrane products of > 440 kDa and 230 kDa, and of ~140 kDa in soluble fractions in kidney, liver and pancreas. Immunohistochemistry studies showed staining in renal collecting duct and thick ascending limb of Henle, in biliary and pancreatic ductal epithelia and, in the embryonic period, in ureteric bud, biliary and pancreatic ducts and salivary gland. Immunofluorescence and immunoelectron microscopy studies suggest that polyductin localizes to primary apical cilium, apical membrane and cytoplasm of collecting duct cells. Our data indicate that PKHD1 codifies membrane and soluble isoforms CÍLIOS/patologia IMUNOHISTOQUÍMICA/métodos ISOFORMAS DE PROTEÍNAS/análise PROTEÍNAS DE MEMBRANA/análise TÚBULOS COLETORES RENAIS/fisiopatologia TÚBULOS COLETORES RENAIS/patologia WESTERN BLOTTING/métodos BLOTTING WESTERN/methods IMMUNOHISTOCHEMISTRY/methods KIDNEY TUBULES COLLECTING/pathology MEMBRANE PROTEINS/analysis MICROSCOPY FLUORESCENCE/methods MICROSCOPY IMMUNOELECTRON/methods PROTEIN ISOFORMS/analysis
30	Etude des facteurs viraux du LMV (Lettuce mosaic virus) impliqués dans le contournement de la résistance conférée par eIF4E chez la laitue : rôle de la protéine d’inclusion cylindrique (CI) / Study of viral factors of LMV (Lettuce mosaic virus) involved in the overcoming of eIF4E-mediated resistance in lettuce : role of the cylindrical inclusion protein (CI) Abdul-Razzak, Anas 09 December 2010 (has links) Ces dernières années, les facteurs du complexe d'initiation de la traduction eucaryote ont été identifiés comme des déterminants essentiels dans la sensibilité des plantes aux virus à ARN, y compris les potyvirus, genre le plus important à la fois de par leur nombre et leur importance économique chez des espèces légumières, fruitières et de grandes cultures.En particulier, les allèles récessifs mo11 et mo12 du gène mo1 précédemment identifié comme codant pour le facteur d'initiation de la traduction eIF4E, sont actuellement utilisés pour protéger les cultures de laitue contre le potyvirus de la mosaïque de la laitue (LMV).Partant des résultats obtenus au laboratoire démontrant que les déterminants du LMV impliqués dans le contournement de la résistance mo1 comprennent non seulement le domaine codant pour la VPg mais aussi, en amont, l’extrémité carboxy-terminale de celui codant pour la CI, mon travail de thèse a consisté à (1) confirmer que le LMV code pour deux facteurs de virulence, la CI et la VPg (2) identifier par mutagenèse dirigée et aléatoire des acides aminés clés de la CI impliqués dans le contournement de la résistance contrôlée par eIF4E (3) entamer une caractérisation fonctionnelle des interactions impliquant les trois partenaires eIF4E, CI et VPg.Les résultats obtenus ont montré que l'échange de la VPg d'un isolat virulent (LMV-E) dans un non virulent (LMV-0) est suffisant pour restituer la compatibilité complète avec les variétés de laitue portant l'allèle mo11, mais pas mo12, alors que la région codant pour la portion C-terminale de la CI et la 6K2, suffit pour contourner les deux allèles de mo1. Le mutant ponctuel dans la CI (LMV-0-S621T) obtenu par mutagenèse dirigée est capable de contourner la résistance conférée par mo12 et partiellement celle conférée par mo11 tandis que le mutant réciproque (LMV-E-T621S) perd sa capacité à contourner les deux allèles de résistance. Il s’agit donc là du premier exemple d'un gène de CI de potyvirus, agissant comme un déterminant de contournement de la résistance récessive contrôlée par eIF4E. En effet, la VPg des potyvirus a été identifiée jusque là comme l’unique facteur de virulence vis-à-vis de eIF4E. Il semble donc que le LMV puisse utiliser deux facteurs viraux (CI et VPg) pour le contournement des allèles de résistance mo1.Cette propriété, associée au fait que des isolats de LMV d’origine sauvage ou ornementale soient capables d’évoluer vers le contournement pourraient donc présenter un risque pour la durabilité des résistances mo1. Des travaux préliminaires ont été menés lors de cette thèse afin de mieux comprendre le rôle exact des mutations des facteurs de virulence dans le processus évolutif d’adaptation du LMV aux pressions imposées par les allèles mo1.Enfin, l’implication de la CI dans le contournement de la résistance mo1 laisse supposer que cette protéine pourrait elle aussi interagir (comme la VPg), directement ou non, avec eIF4E. Nous avons montré pour la première fois in vitro et in vivo l’interaction entre la région C-terminale de la CI et la protéine eIF4E de laitue. De plus, la mutation en position 621 de la CI ayant un rôle clé dans le contournement de la résistance mo1 ne semble pas affecter ces interactions in vitro / In recent years, the factors of the eukaryotic translation initiation complex were identified as essential determinants of plant susceptibility to RNA viruses, including potyviruses, the largest and economically the most important of the plant virus groups. Members of this group are responsible for important virus diseases affecting all types of vegetable, fruit, and field crops.In particular, the recessive alleles mo11 and mo12 of mo1 gene, which previously identified as encoding for the translation initiation factor eIF4E, are currently used to protect lettuce crops against lettuce mosaic potyvirus (LMV).Based on the results obtained in the laboratory showing that the LMV determinants involved in the mo1 resistance overcoming include not only the area encoding for the VPg but also upstream, the C-terminal region of that encoding for the CI, my work of thesis consisted in (1) confirm that LMV encodes for two virulence factors, CI and VPg (2) identified by site-directed and random mutagenesis a key amino acids of the CI protein involved in eIF4E-mediated resistance overcoming (3) initiate a functional characterization of interactions involving the three partners eIF4E, VPg and CI.The results obtained showed that the exchange of VPg of a virulent isolate (LMV-E) in a non-virulent (LMV-0) is sufficient to restore full compatibility with lettuce cultivars carrying mo11 allele, but not mo12, whereas the region encoding for the C-terminal portion of the CI and 6K2, is sufficient to overcoming both mo1 alleles. The point mutation in the CI (LMV-0-S621T) obtained by site-directed mutagenesis is able to overcome the resistance conferred by mo12 and partly that conferred by mo11 while the reciprocal mutation (LMV-E-T621S) loses its ability to overcome both resistance alleles.So this is the first example of a potyvirus CI gene acting as a virulence determinant in overcoming eIF4E-mediated resistance. Indeed, the potyvirus VPg was previously identified as the sole virulence determinant vis-a-vis eIF4E. It seems that LMV can use two viral factors (CI and VPg) to overcome the mo1 resistance alleles.This property, combined with the fact that LMV isolates from the wild or ornamental origin are able to evolve towards the overcoming could therefore pose a risk to the durability of the mo1 resistance. Preliminary works were carried on during this thesis to better understand the exact role of mutations affecting virulence factors in the evolutionary process of adaptation of LMV to the pressures imposed by mo1 alleles.Finally, the involvement of the LMV CI in mo1 resistance breaking suggests that this protein could also interact (such as VPg), directly or indirectly with eIF4E. We have shown for the first time in vitro and in vivo interactions between the C-terminal region of the CI protein and the lettuce eIF4E protein. In addition, the mutation at position 621 of the CI which has a key role in mo1 resistance overcoming does not seem to affect these interactions in vitro. Potyvirus Lmv Eif4e Laitue Génétique inverse Inclusion cylindrique Ci VPg Résistance récessive Interaction Potyvirus Lmv Eif4e Lettuce Genetic inverse Cylindrical inclusion Ci VPg Recessive resistance Interaction

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