Global ETD Search

111	Pore pressure prediction and direct hydrocarbon indicator: insight from the southern pletmos basin, offshore South Africa Lasisi, Ayodele Oluwatoyin January 2014 (has links) >Magister Scientiae - MSc / An accurate prediction of pore pressure is an essential in reducing the risk involved in a well or field life cycle. This has formed an integral part of routine work for exploration, development and exploitation team in the oil and gas industries. Several factors such as sediment compaction, overburden, lithology characteristic, hydrocarbon pressure and capillary entry pressure contribute significantly to the cause of overpressure. Hence, understanding the dynamics associated with the above factors will certainly reduce the risk involved in drilling and production. This study examined three deep water drilled wells GA-W1, GA-N1, and GA-AA1 of lower cretaceous Hauterivian to early Aptian age between 112 to 117.5 (MA) Southern Pletmos sub-basin, Bredasdorp basin offshore South Africa. The study aimed to determine the pore pressure prediction of the reservoir formation of the wells. Eaton’s resistivity and Sonic method are adopted using depth dependent normal compaction trendline (NCT) has been carried out for this study. The variation of the overburden gradient (OBG), the Effective stress, Fracture gradient (FG), Fracture pressure (FP), Pore pressure gradient (PPG) and the predicted pore pressure (PPP) have been studied for the selected wells. The overburden changes slightly as follow: 2.09g/cm3, 2.23g/cm3 and 2.24g/cm3 across the selected intervals depth of wells. The predicted pore pressure calculated for the intervals depth of selected wells GA-W1, GA-N1 and GA-AA1 also varies slightly down the depths as follow: 3,405 psi, 4,110 psi, 5,062 psi respectively. The overpressure zone and normal pressure zone were encountered in well GA-W1, while a normal pressure zone was experienced in both well GA-N1 and GA-AA1. In addition, the direct hydrocarbon indicator (DHI) was carried out by method of post-stack amplitude analysis seismic reflectors surface which was used to determine the hydrocarbon prospect zone of the wells from the seismic section. It majorly indicate the zones of thick hydrocarbon sand from the amplitude extraction grid map horizon reflectors at 13AT1 & 8AT1 and 8AT1 & 1AT1 of the well GA-W1, GA-N1 and GA-AA1 respectively. These are suggested to be the hydrocarbon prospect locations (wet-gas to Oil prone source) on the seismic section with fault trending along the horizons. No bright spot, flat spot and dim spot was observed except for some related pitfalls anomalies Pore pressure Hydrocarbon Direct Hydrocarbon Indicators (DHIs) Seismic Amplitude Reservoirs Disequilibrium Compaction Bright spot Flat spot and Dim spot Overburden Fracture gradient Fracture pressure Bredasdorp basin South Africa
112	Analyse du polymorphisme moléculaire de gènes de composantes de la qualité des fruits dans les ressources génétiques sauvages et cultivées de tomate : recherche d'associations gènes/QTL / Molecular polymorphism analysis of fruit-quality related genes in wild and cultivated genetic ressources : association genes/QTL Ranc, Nicolas 28 January 2010 (has links) Chez la tomate, l'amélioration pour la qualité du fruit est rendue difficile par la multiplicité et la complexité des caractères. La cartographie de QTL a permis la caractérisation génétique de ces caractères. L'objectif est maintenant d'identifier les gènes sous-jacents aux QTL. Nous avons utilisé la cartographie par déséquilibre de liaison (DL) dans ce but. Pour éviter les fausses associations entre caractères et polymorphismes moléculaires, la structure génétique a été prise en compte dans l'analyse. La tomate cultivée montre un faible niveau de diversité génétique, ce qui réduit la résolution de cartographie. Le génome de la tomate de type cerise est décrit comme une mosaïque entre celui de la tomate cultivée et de l'ancêtre sauvage. Ce mélange devrait augmenter la résolution des études d'association. Nous avons utilisé une « core collection » focalisée sur des accessions de type cerise pour valider la région génomique contenant un QTL pour le nombre de loges. Deux mutations sont associées avec le caractère. Ces deux SNP ont évolué différemment du reste du chromosome 2, en subissant une sélection balancée qui témoigne de l'augmentation de la diversité morphologique lors de la domestication. L'étude, focalisée sur le chromosome 2, a permis d'analyser l'étendue du DL en fonction de la distance génétique et physique. Des associations, entre polymorphismes et phénotypes étudiés, ont été détectés avec des méthodes prenant en compte la structure génétique. Nous avons montré l'intérêt d'utiliser la structure en mosaïque du génome des accessions de type cerise pour surmonter les limitations de résolution dans les analyses d'associations chez une espèce cultivée autogame. / In Tomato (Solanum lycopersicum), breeding for fruit quality is difficult due to the multiplicity and complexity of the traits. QTL mapping has allowed the genetic characterization of these traits. One of the challenges is now to identify the genes underlying these QTLs. Following this aim, we used linkage-disequilibrium (LD) mapping. To avoid hazardous associations between traits and polymorphisms, the genetic structure has to be taken into account for LD mapping. Cultivated tomato showed low genetic diversity reducing mapping resolution. Cherry type tomato genome is described to be admixture between cultivated tomato and its wild ancestor. Such admixture may increase resolution of association mapping. We used a core collection focused on cherry type accessions to validate a candidate gene for a fruit locule-number QTL. We found that two single nucleotide polymorphisms (SNP) were highly associated with the trait. These two SNP evolved differently from the rest of the chromosome 2. They underwent a balanced selection which testifies a selection for fruit morphology diversity by human. Association mapping, focused on whole chromosome 2, allowed us to assess the extent of linkage disequilibrium over genetic and physical distances. Associations of polymorphisms with phenotypes were detected with structured association methods. We thus showed efficiency of genome admixture to overcome the low-resolution limitation of association mapping for an inbred crop. We validated previously identified QTLs and found associations with new QTLs and new candidate genes. An evolutionary model including bottleneck and gene flow between wild and domesticated forms is also presented. Tomate Qualité du fruit Ressources génétiques Déséquilibre de liaison Génétique d'association Diversité moléculaire Tomato Fruit-quality traits Genetic resources Linkage disequilibrium Association mapping Molecular diversity
113	Recherche de déterminants génétiques impliqués dans la résistance à la Fusariose de l'épi chez le blé tendre / Identification of loci involved in the genetic resistance to Fusarium head blight in wheat Le Couviour, Fabien 28 June 2011 (has links) La fusariose des épis des céréales est due à un champignon pathogène (Fusarium spp.) qui entraine non seulement une perte directe de rendement en interrompant le remplissage des grains, mais également une perte indirecte par la production de mycotoxines, responsables de perturbations de procédés industriels et d'intoxications alimentaires. Parmi les différents moyens de lutte, la création de variétés résistantes semble la stratégie la plus efficace et la plus durable. Plusieurs variétés exotiques ont ainsi été identifiées comme résistantes mais présentent la particularité d'être difficilement cultivables sous nos latitudes. L'obtention de variétés résistantes adaptées à nos climats passe donc par une meilleure connaissance des mécanismes de résistance disponibles. La détection de QTL (Quantitative Trait Loci) chez le blé tendre a déjà permis de localiser certains des facteurs génétiques impliqués dans des mécanismes de résistance. Cependant l'utilisation de ces résultats en amélioration des plantes se heurte à deux contraintes majeures : la position des QTL reste le plus souvent imprécise et ces QTL, dérivant de populations biparentales, ne représentent qu'une fraction de la diversité génétique potentiellement intéressante pour ce caractère. L'objectif de la thèse était d'étudier la résistance du blé à la fusariose en réalisant une approche de génétique d'association. L'utilisation de génotypes faiblement apparentés et d'une densité élevée de marqueurs a permis de détecter des associations entre le polymorphisme génétique et des variations phénotypiques. Après avoir réalisé une synthèse sur le pathogène et sur l'approche par génétique d'association, le premier travail a été de réaliser une carte génétique fiable afin de pouvoir localiser les associations mises en évidence. Un panel de 195 variétés de blé tendre élites a été évalué pour leur résistance globale à la fusariose, pour leur résistance à la progression des symptômes et pour leur résistance à l'accumulation des mycotoxines. Des notations morphologiques (précocité, taille, aristation, nombre d'épillets par épi et extrusion des anthères) ont également été réalisées afin d'évaluer leur influence dans l'infestation. Ces variétés ont été génotypées avec 3016 marqueurs SNP, 200 marqueurs SSR et 1400 marqueurs DArT. Préalablement à la réalisation des tests d'association, l'étude de la structure a mis en évidence trois origines géographiques (française, anglaise et allemande) des variétés du panel. De même, l'étude du déséquilibre de liaison a montré que celui-ci était conservé sur une distance comprise entre 2 et 6 cM. L'étude d'association réalisée sur les notations d'infestation a permis d'identifier plusieurs zones associées, dont plusieurs sont colocalisées avec des Meta-QTL et/ou avec des zones identifiées avec les notations morphologiques. La densification en marqueurs de 6 zones associées avec les différentes notations d'infestation, localisées sur les chromosomes 1A, 1D, 2A, 2B, 5A et 7A, ont permis de confirmer ces régions, de restreindre fortement l'intervalle d'intérêt et de mettre en évidence de potentiels gènes candidats. Cette analyse a ainsi permis de mieux comprendre les mécanismes génétiques et morphologiques impliqués dans la résistance à la fusariose des épis. La décomposition en trois partie de cette résistance (résistance globale, résistance à la progression des symptômes, et résistance à l'accumulation des mycotoxines) montre l'existence de mécanismes génétiques indépendants et donc complémentaire à prendre en compte dans une stratégie de création de variétés résistantes à la fusariose des épis. / Fusarium head blight (FHB), caused by the fungal pathogen Fusarium spp., is a major cereals disease that not only cause direct yield losses, by interrupting grain filling, but also indirect quality losses by the production of mycotoxins, responsible of industrial processes disturbance and food poisoning. Most wheat breeding programs in FHB-affected areas of the world have been screening germplasm to identify sources of improved tolerance. Unfortunately, these sources of genetic resistance are often of exotic origin and not adapted to West European growing conditions. The selection of adapted varieties with improved tolerance therefore needs a better characterization of resistance mechanisms. Several QTL for FHB resistance in wheat have been identified in European germplasm, but the use of these information in marker-assisted selection is constrained by the precision of the QTL and the low diversity tested by using biparental population.The aim of the present study is to use association mapping, also called linkage disequilibrium mapping, to identify loci involved in the resistance to FHB. This method refers to the analysis of statistical associations between genotypes determined in a collection of individuals, and the phenotypes of the same individuals. A dense genetic map was compiled to localize precisely the association results. Resistance to F. graminearum was studied in a panel of 195 elite wheat varieties by the evaluation of three components: resistance to global infection, resistance to symptom progression and resistance to accumulation of mycotoxins. Morphological factors (plant height, heading date, awnedness, spikelets per ears, anther extrusion), known to influence resistance to FHB, were also recorded. All the varieties have been genotyped with around 3300 SNP markers, 200 SSR markers and 1400 DArT markers. We first investigated the structure of the panel, which could generate bias in the estimate of allele effects, if not included explicitly in the association models. We showed that the structure is based on geographical origin (French, German and UK). Study of the linkage disequilibrium (LD) showed an extent of LD between 2 and 6 cM. Results of association studies permitted to identify several loci for each of the evaluated components of resistance. Some of these loci colocalized with the results of the MetaQTL analysis and/or with loci associated with morphological traits. We selected more specifically 6 loci, located on chromosome 1A, 1D, 2A, 2B, 5A and 7A. Marker saturation of the regions, allowed to confirm the genome wide association results and to increase the accuracy of the loci of interest. This analysis allowed to better understand the many factors that influenced FHB resistance, whether genetic or morphological. Results show that the genetic mechanisms are independent between the three components and therefore, information obtained for each component are to be used complementary to create varieties with increased resistance to FHB. Fusariose de l'épi Triticum aestivum Génétique d'association Structuration Déséquilibre de liaison DON Fusarium graminearum Fusarium Head Blight Triticum aestivum Association mapping Genetic structure Linkage disequilibrium DON Fusarium graminearum 579.567 7
114	Méthodes statistiques pour identifier l'adaptation locale dans les populations continues et mélangées / Statistical Methods to Identify Local Adaptation in Continuous and Admixed Populations Martins, Helena 26 September 2018 (has links) La recherche des signatures génétiques de l'adaptation locale est d'un grand intérêt pour de nombreuses études de génétique des populations. Les approches pour trier les loci sélectifs à partir de leur contexte génomique, se concentrent sur les valeurs extrêmes de l'indice de fixation, FST, à travers les loci. Cependant, le calcul de l'indice de fixation devient difficile lorsque la population est génétiquement continue, lorsque la prédéfinition des sous-populations est une tâche difficile et en présence d'individus mélangés dans l'échantillon. Dans cette thèse, nous présentons une nouvelle méthode pour identifier les loci sous sélection basée sur une extension de la statistique FST à des échantillons avec des individus mélangés. Considérant notre objectif d'explorer des méthodes statistiques pour identifier l'adaptation locale dans la population mélangée, nous avons inclus des données spatiales pour calculer les coefficients d'ascendance et les fréquences d'allèles. Pour enrichir notre travail, nous avons investigué les effets du déséquilibre de liaison et des méthodes d'élagage de LD dans les analyses de génomes pour la sélection. / Finding genetic signatures of local adaptation is of great interest for many population genetic studies. Common approaches to sorting selective loci from their genomic background focus on the extreme values of the fixation index, FST, across loci. However, the computation of the fixation index becomes challenging when the population is genetically continuous, when predefining subpopulations is a difficult task, and in the presence of admixed individuals in the sample. In this thesis, we present a new method to identify loci under selection based on an extension of the FST statistic to samples with admixed individuals. Considering our goal of exploring statistical methods to identify local adaptation in admixed population, we included spatial data to compute ancestry coefficients and allele frequencies. To enrich our work, we investigated the effects of linkage disequilibrium and LD-pruning methods in genome scans for selection. Génétique des populations Scan génomique Populations mélangées Déséquilibre de liaison Biostatistiques Genome scan for selection Population genetics Admixed populations Population differentiation tests Linkage disequilibrium Biostatistics 570
115	Hunting for causal variants in microbial genomes Chen, Peter 11 1900 (has links) L'un des objectifs centraux de la biologie est de comprendre comment l'ADN, la séquence primaire, donne lieu à des traits observables. À cette fin, nous examinons ici des méthodes pour identifier les composants génétiques qui influencent les traits microbiens. Par « identifier », nous entendons l'élucidation à la fois l'état allélique et de la position physique de chaque variante causale d'un phénotype d'intérêt à la résolution des nucléotides de paires de bases. Nous nous sommes concentrés sur les études d'association génomique (genome-wide association studies; GWAS) en tant qu'approche générale d’étudier l'architecture génétique des traits. L'objectif global de cette thèse était d'examiner de manière critique les méthodologies GWAS et de les considérer en pratique dans des populations microbiennes fortement clonales et non- clonales (i.e. avec recombinaison fréquent). Le domaine de la GWAS microbienne est relativement nouveau par rapport aux quinze dernières années de la GWAS humaine, et en tant que tel, nous avons commencé par un examen de l'état de la GWAS microbienne. Nous avons posé deux questions principales : 1) Les méthodes GWAS humaines fonctionnent-elles facilement et sans modification pour les populations microbiennes ? 2) Et sinon, quels sont les problèmes méthodologiques centraux et les modifications nécessaires pour la GWAS microbienne? À partir de ces résultats, nous avons ensuite détaillé le déséquilibre de liaison (linkage disequilibrium; LD) comme principal obstacle dans la GWAS microbien, et nous avons présenté une nouvelle méthode, POUTINE, pour relever ce défi en exploitant les mutations homoplasiques pour briser implicitement la structure LD. Le reste de la thèse présente à la fois les méthodes traditionnelles GWAS (comptage des allèles) et POUTINE (comptage d’homoplasies) appliquées à une population hautement recombinogène de génomes de vibrions marins. Malgré une taille d'échantillon modeste, nous donnons un premier aperçu de l'architecture génétique de la résistance aux bactériophages dans une population naturelle, tout en montrant que les récepteurs des bactériophages jouent un rôle primordial. Ce résultat est en pleine cohérence avec des expériences en laboratoire de coévolution phage-bactérie. Il est important de noter que cette architecture met en évidence à quel point la sélection positive peut sculpter certains traits microbiens différemment de nombreux traits complexes humains, qui sont généralement soumis à une faible sélection purificatrice. Plus précisément, nous avons identifié des mutations à effet important à haute fréquence qui sont rarement observées dans les phénotypes complexes humains où de nombreuses mutations à faible effet contribuent à l'héritabilité. La thèse se termine par des perspectives sur les voies à suivre pour la GWAS microbienne. / One of the central goals of biology is to understand how DNA, the primary sequence, gives rise to observable traits. To this aim, we herein examine methods to identify the genetic components that influence microbial traits. By "identify" we mean the elucidation of both the allelic state and physical position of each causal variant of a phenotype of interest down to the base-pair nucleotide resolution. Our focus has been on genome-wide association studies (GWAS) as a general approach to dissecting the genetic architecture of traits. The overarching aim of this thesis was to critically examine GWAS methodologies and to consider them in practice in both strongly clonal and highly recombining microbial populations. The field of microbial GWAS is relatively new compared to the over fifteen years of human GWAS, and as such, we began this work with an examination of the state of microbial GWAS. We asked and attempted to answer two main questions: 1) Do human GWAS methods readily work without modification for microbial populations? 2) And if not, what are the central methodological problems and changes that are required for a successful microbial GWAS? Building from these findings, we then detailed linkage disequilibrium (LD) as the primary obstacle in microbial GWAS, and we presented a new method, POUTINE, to address this challenge by harnessing homoplasic mutations to implicitly break LD structure. The remainder of the thesis showcases both traditional GWAS methods (allele counting) and POUTINE applied to a highly recombining population of marine vibrio genomes. Despite a small sample size, we provide a first glimpse into the genetic architecture of bacteriophage resistance in a natural population and show that bacteriophage receptors play a primary role consistent with experimental populations of phage-bacteria coevolution. Importantly, this architecture highlights how strong positive selection can sculpt some microbial traits differently than many human complex traits, which are generally under weak purifying selection. Specifically, we identified common frequency, large-effect mutations that are rarely observed in human complex phenotypes where many low-effect mutations are thought to contribute to the bulk of heritability. The thesis concludes with perspectives on ways forward for microbial GWAS. Microbial GWAS Linkage disequilibrium Allele counting Homoplasy counting Genetic architecture Déséquilibre de liaison Comptage d'allèles Comptage d'homoplasie Architecture génétique
116	Genetic Diversity and Expression Variation in Human Cytochrome P450 Genes Jian, Zhengwen 23 April 2008 (has links) No description available. Biology Genetics Toxicology single nucleotide polymorphism (SNP) regulatory SNP (rSNP) linkage disequilibrium (LD) allelic expression imbalance(AEI) CYP1A1 CYP1A2 expression variation
117	Comparative Genomics of Gossypium spp. through GBS and Candidate Genes – Delving into the Controlling Factors behind Photoperiodic Flowering Young, Carla Jo Logan 16 December 2013 (has links) Cotton has been a world-wide economic staple in textiles and oil production. There has been a concerted effort for cotton improvement to increase yield and quality to compete with non-natural man-made fibers. Unfortunately, cultivated cotton has limited genetic diversity; therefore finding new marketable traits within cultivated cotton has reached a plateau. To alleviate this problem, traditional breeding programs have been attempting to incorporate practical traits from wild relatives into cultivated lines. This incorporation has presented a new problem: uncultivated cotton hampered by photoperiodism. Traditionally, due to differing floral times, wild and cultivated cotton species were unable to be bred together in many commercial production areas world-wide. This worldwide breeding problem has inhibited new trait incorporation. Before favorable traits from undomesticated cotton could be integrated into cultivated elite lines using marker-assisted selection breeding, the markers associated with photoperiod independence needed to be discovered. In order to increase information about this debilitating trait, we set out to identify informative markers associated with photoperiodism. This study was segmented into four areas. First, we reviewed the history of cotton to highlight current problems in production. Next, we explored cotton’s floral development through a study of floral transition candidate genes. The third area was an in-depth analysis of Phytochrome C (previously linked to photoperiod independence in other crops). In the final area of study, we used Genotype-By-Sequencing (GBS), in a segregating population, was used to determine photoperiod independence associated with single nucleotide polymorphisms (SNPs). In short, this research reported SNP differences in thirty-eight candidate gene homologs within the flowering time network, including photoreceptors, light dependent transcripts, circadian clock regulators, and floral integrators. Also, our research linked other discrete SNP differences, in addition to those contained within candidate genes, to photoperiodicity within cotton. In conclusion, the SNP markers that our study found may be used in future marker assisted selection (MAS) breeding schemas to incorporate desirable traits into elite lines without the introgression of photoperiod sensitivity. Genotype by Sequencing Cotton Gossypium Reduced Representation Marker Assisted Selection Loci Linkage Disequilibrium Photoperiodism Photoperiod Flowering Wild Germplasm Introgression GBS Targeted GBS Cotton Duplicate Gene Evolution Gene Conversion Gossypium Polyploidy Linkage Disequilibrium Candidate Gene SNP Orthologs Circadian Clock Paralogs Phytochrome Floral
118	Genome mapping of malaria resistance genes : the host ligands of PfEMP1 Fry, Andrew E. January 2009 (has links) Erythrocytes infected by mature forms of the Plasmodium falciparum parasite adhere to other components of the vascular space, a behavior considered critical to the pathogenesis of severe malaria. Adhesion is mediated by the P. falciparum erythrocyte membrane protein 1 (PfEMP1), a highly variant antigen expressed by the parasite and subject to switching during the course of an infection. The host ligands of PfEMP1 include CD36, ICAM-1 and the ABO antigens. By employing a series of population- and family-based association studies from multiple African populations, we examined whether variation in the genes underlying these molecules affects susceptibility to severe malaria. Our results suggest that a common frameshift mutation in the ABO glycosyltransferase, responsible for blood group O, is associated with protection from severe malarial phenotypes (P=2x10⁻⁷), particularly severe malarial anaemia. However, we found no significant disease associations with variation in either the ICAM1 or CD36 genes. We focused on two particular functional polymorphisms, the missense ICAM-1Kilifi and the CD36 nonsense mutation T1264G. We genotyped both markers in around 10,000 individuals, but neither demonstrated an association with severe malarial phenotypes. Malaria has been a profound selection pressure shaping human genetic diversity. The last decade has seen the development of several haplotype-based methods to detect signatures of recent positive evolutionary selection. These techniques are potentially invaluable tools in our hunt for genetic variants that protect from life threatening malaria. We used simulations and empirical data from the International HapMap Project to demonstrate the validity of searching for long regions of haplotype homozygosity, as an approach to finding alleles undergoing selective sweeps. We analysed genetic data from a range of populations, particularly those utilized by HapMap, to investigate whether our candidate genes were associated with signals of recent positive selection. We characterized the distribution of a selection event associated with the CD36 1264G allele, focused in Central-West Africa, and demonstrated a novel signal of low population differentiation at the ABO gene, suggestive of longstanding balancing selection. Our work confirms that variation in the host ligands of PfEMP1 modulates severe malaria susceptibility, and highlights the value of using signals of selection, along with functional experiments and genetic association studies, to dissect the biology of severe malaria. 616.9883
119	Regiões genômicas envolvidas no controle de caracteres agronômicos e no teor de macro e micronutrientes em grãos de feijão comum, via mapeamento associativo / Genomic regions controlling agronomic traits and macro- and micronutrient contents in common bean grains, via association mapping Diniz, Augusto Lima 02 September 2016 (has links) O feijão comum é uma das principais culturas agrícolas produzidas e consumidas no Brasil e no mundo. Por isso, várias iniciativas de pesquisa buscam dar subsídios ao melhoramento da cultura, que visa a desenvolver cultivares mais produtivos e tolerantes a estresses biótico e ábiótico, além de agregar valor nutricional e tecnológico aos grãos. Nesse cenário, no presente estudo, buscou-se identificar, a partir da abordagem de mapeamento associativo, regiões genômicas envolvidas no controle de caracteres agronômicos e no teor de macro e micronutrientes em grãos de feijão comum. Para tanto, um painel de acessos e linhagens foi (i) genotipado por sequenciamento, cujos dados perdidos foram imputados; (ii) e fenotipados para 5 caracteres agronômicos e para o teor de 13 nutrientes, em duas condições experimentais - campo e casa de vegetação. A partir da informação genotípica, foram investigados (i) a estrutura populacional, (ii) o grau de parentesco e (iii) a extensão do desequilíbrio de ligação (DL). Para as análises fenotípicas, foi utilizada a abordagem de modelos mistos. Finalmente, o mapeamento associativo foi realizado utilizando o modelo FarmCPU. Um total de 35.527 e 9.388 SNPs, com MAF ≥ 0,05, distribuídos ao longo dos 11 cromossomos de P. vulgaris, foi obtido considerando os limites de 80 e 10% de dados perdidos, respectivamente. A análise da estrutura populacional e as estimativas de parentesco permitiram evidenciar a clara distinção entre os acessos oriundos de pools gênicos diferentes. Tais fatores influenciaram fortemente a extensão do DL; portanto, medidas que corrigem para estes vieses foram adotadas e possibilitaram a constatação de que os maiores blocos genômicos em DL estão contidos nas regiões centroméricas e pericentroméricas dos cromossomos. Igualmente, foi detectado DL entre locos de cromossomos diferentes, sugerindo que o processo de melhoramento e o sistema de cruzamento da espécie contribuem para a magnitude do DL em feijão, uma vez que os vieses decorrentes da estrutura populacional e do parentesco foram corrigidos. Considerando os fenótipos avaliados, o painel aqui utilizado apresentou maior variabilidade fenotípica para os caracteres agronômicos \'dias para o florescimento\' (DPF), \'dias para formação do legume\' (DPFL), \'número de legumes por planta\' (NLPP), \'número de sementes por legume\' (NSPL) e \'massa de 100 grãos\' (M100), e para o teor dos nutrientes cobre (Cu), ferro (Fe) e zinco (Zn) presentes nos grãos. A partir do mapeamento associativo, foram identificados 176 SNPs associados aos caracteres agronômicos e teores de macro e micronutrientes. Destes, 112 estão localizados em regiões gênicas - exons (71), introns (29), 5\'-UTR (5) e 3\'-UTR (7). Logo, tais polimorfismos, principalmente aqueles localizados em exons ou próximos a locos, como o Ppd, tradicionalmente apontado como envolvido no controle de DPF, são fortes candidatos para explicar as alterações fenotípicas observadas. Os demais 64 SNPs estão localizados em regiões inter-gênicas, em porções do cromossomo nas quais a extensão do DL pode chegar a mais de 1 Mb. Portanto, é válido recomendar a investigação da região em DL que flanqueia o SNP na busca de genes associados ao controle da variação fenotípica. / Common bean is an important crop produced and consumed in Brazil and worldwide. Several research initiatives have been set up to implement breeding programs for developing more productive cultivars tolerant to biotic and abiotic stresses, and improving nutritional and technological grain quality. Therefore, the aim of this study was to use association mapping in order to identify the genomic regions controlling agronomic traits and the content of macroand micronutrients in common bean. A panel of accessions and lines was (i) genotyped by sequencing, with imputed missing data; (ii) and phenotyped for five agronomic traits and 13 grain nutrients content under two sets of experimental conditions (field and greenhouse). The genotypic information provided a basis for investigating (i) population structure, (ii) kinship and (iii) the extent of linkage disequilibrium (LD). Mixed models were used for predicting phenotypic means. Finally, association mapping was performed using the FarmCPU model. A total of 35,527 and 9,388 SNPs (MAF ≥ 0.05) distributed over the 11 chromosomes of P. vulgaris was obtained based on two missing data thresholds (80 and 10%). Population structure and kinship analysis highlighted the distinction between accessions from different gene pools. These factors strongly influenced the extent of LD. Measures to correct these biases indicated that the major LD genomic blocks were located within centromeric and pericentomeric regions. In addition, high LD was detected between loci from different chromosomes, suggesting that the breeding process and autogamy also influence LD in common bean, given that the bias resulting from population structure and kinship were corrected. The panel used exhibited high phenotypic variability for the following agronomic traits: \'days to flowering\' (DTF), \'days to pod formation\' (DTPF), \'number of pods per plant\' (NPPP), \'number of seeds per pod\' (NSPP) and \'mass of 100 grains\' (M100); and the following grain nutrient contents: copper (Cu), iron (Fe) and zinc (Zn). A total of 176 SNPs were identified by association mapping, 112 located in gene regions - exons (71), introns (29), 5\'-UTR (5) and 3\'-UTR (7). Such polymorphisms, especially those within exons or near loci as Ppd, traditionally considered to be involved in DTF control, are strong candidates for providing an elucidation of phenotypic variability. The remaining 64 SNPs were located in intergenic regions, in which the DL decays over 1 Mb. It would therefore be worth investigating LD in the region flanking the SNPs for genes associated with phenotypic variation. Phaseolus vulgaris Desequilíbrio de ligação Estrutura populacional Genetic mapping Genotipagem por sequenciamento Genotyping by sequencing GWAS GWAS Kinship Linkage disequilibrium Mapeamento genético mixed models Modelos mistos Molecular polymorphism Parentesco Phaseolus vulgaris Polimorfismo molecular Population structure
120	Détection et validation fonctionnelle de régions du génome affectant la résistance aux strongles gastro-intestinaux chez le mouton / Detection and functional validation of genomic reigons affecting resistance to gastro-intestinal nematodes in sheep Sallé, Guillaume 17 December 2012 (has links) Les strongles gastro-intestinaux, dont Haemonchus contortus constituent un problème majeur pour l'élevage des ovins allaitants. Ils entrainent des pertes de production et le recours aux anthelminthiques est remis en question par l'apparition de souches de vers résistantes. La sélection d'ovins plus résistants fait partie des stratégies complémentaires de lutte les plus sérieuses. Cependant sa mise en oeuvre requiert une meilleure compréhension des mécanismes sous-jacents. Cette thèse vise à identifier les régions du génome ovin impliquées dans la résistance aux strongles gastro-intestinaux. Une analyse statistique d'association entre des marqueurs génétiques et des mesures de résistance d'un troupeau d'ovins croisés Martinik Black-belly x Romane a mis en évidence un nombre limité de régions d'intérêt. Parmi celles-ci, un segment du chromosome 12 a été choisi pour effectuer des accouplements raisonnés et valider son rôle dans la résistance à H. contortus. L'effet de cette région a été validé chez les descendants issus d'accouplements assistés par marqueurs génétiques. Cette région semble limiter fertilité des vers femelles tout en contribuant à une réponse immunitaire plus forte. Le rôle d'une région du chromosome 21 dans la variation de concentration plasmatique en pepsinogène, un marqueur de lésions abomasales, a également été confirmé. Un gène candidat sous-jacent est en cours de séquençage et l'analyse des polymorphismes devrait contribuer à la validation de son rôle. Deux autres gènes très proches pourraient également être impliqués et mériteraient une considération future. Ces travaux illustrent à la fois la variation génétique disponible pour les caractères de résistance à H. contortus et la complexité des mécanismes mis en jeu. Des études complémentaires de séquençage et d'étude d'expression par séquençage devrait contribuer à une meilleure compréhension des fonctions des gènes impliqués et de leurs interactions. / Gastro-intestinal nematodes, among which Haemonchus contortus are a major threat to the meat sheep industry. They are responsible for production losses and the apparition of worm populations resistant to drugs limits their use as worm control strategy. Breeding more resistant sheep is among the most practicable alternative strategy. However its implementation requires a deeper understanding of underlying mechanisms. This PhD aims at identifying regions of the ovine genome affecting resistance to gastro-intestinal nematodes. A statistical analysis of existing associations between genetic markers and resistance traits of a Martinik Black-belly x Romane cross-bred sheep flock unraveled a limited number of key players. Among these, a fragment of the chromosome 12 was chosen to perform marker-assisted matings and to validate its role in resistance to H. contortus. The effect of this region was validated in the progenies born from matings. It seems this chromosomic fragment limits female worms fertility and is associated to a stronger immune response. The putative role played by a fragment of the chromosome 21 in plasmatic pepsinogen concentration (a biomarker of abomasal lesions) was also confirmed in this work. A candidate gene underlying this region has been sequenced and the analysis of the detected polymorphisms should confirm its role. Further, two other genes in its vicinity could also play a role in this biological phenomenon and they should also deserve future considerations. This work illustrated both the existing genetic variation for resistance to H. contortus and the associated complexity of underlying mechanisms. Additional sequencing and gene expression sequencing studies should help understanding gene functions and interactions. Qtl Nématode Résistance génétique Snp Expression de gènes Pepsinogène Analyse de liaison Analyse d'association Ldla Déséquilibre de liaison Qtl Nematode Genetic resistance Snp Gene expression Pepsinogen Linkage analysis Association analysis Ldla Linkage disequilibrium

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