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Constructing confidence regions for the locations of putative trait loci using data from affected sib-pair designsPapachristou, Charalampos 24 August 2005 (has links)
No description available.
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Population Genetic Analysis of Atlantic Horseshoe Crabs (Limulus polyphemus) in Coastal Massachusetts.Johnson, Katherine T 23 March 2016 (has links) (PDF)
Atlantic horseshoe crabs (Limulus polyphemus) have endured decades of intense harvest pressure. Genetics studies have shown evidence of distinct sub-groups spanning the coast, although few fine-scale studies have been done to delineate these groups on a local level. Massachusetts lies directly between two of these sub-groups. With documented differences in prosomal widths of horseshoe crabs from either side of Cape Cod, it is possible that Cape Cod is a barrier to gene flow and that there are two distinct genetic groups within Massachusetts. Regulations currently consider all horseshoe crabs to be of one stock. I examined 6 microsatellite loci from 193 horseshoe crabs collected from 7 locations across Massachusetts between 5 May and 24 June 2010. I also analyzed the prosomal widths of 324 horseshoe crabs from 8 locations across Massachusetts. Data analysis revealed low divergence with a G′ST of 0.005 (95% CI −0.004–0.013) and a G″ST of 0.015 (95% CI −0.014–0.045). Wellfleet Bay showed evidence of divergence from all other sites except Buzzards Bay. Isolation by distance is apparent via the Atlantic Ocean. Phenotypic variation in the prosomal widths of horseshoe crabs shows greater divergence among sites than neutral markers and indicates the presence of additive genetic effects. Low divergence and high heterozygosity indicate that although documented population declines have occurred, effective population size (Ne) is still large enough to maintain allele frequencies. With isolation by distance, divergence is likely to increase over time if populations remain low. Phenotypic divergence shows the possibility of local adaptation and that the implementation of management units (MUs) to the north and south of Cape Cod would be recommended as a conservative measure.
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Fine Mapping and Candidate Gene Discovery at the Rsv3 LocusBowman, Brian Carter 08 June 2011 (has links)
Soybean mosaic virus (SMV) is the most common member of the viral genus Potyvirus to infect soybeans (Glycine max [L.] Merr.) worldwide. SMV has been traditionally controlled by the deployment of single dominant, strain specific resistance genes, referred to as Rsv genes. Rsv1 is the most widely used form of SMV resistance with nine different alleles conferring resistance only to the lower numbered less virulent strains, G1 to G3. Rsv3 gives resistance to higher numbered more virulent strains G5 to G7. Soybean lines containing Rsv4, are resistant to all seven currently recognized North American SMV strains. In this study, the recently released soybean whole genome sequence was used to design molecular markers for fine mapping Rsv3 to a ~150 kb genomic region containing four coiled-coil nucleotide-binding leucine-rich repeat proteins. In a related study a large population segregating at the Rsv3 locus was screened for resistance to facilitate future characterization of this region. The markers identified in this study will allow for more accurate marker-assisted selection of Rsv3. / Master of Science
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Comparison of the Conservation Genetics of Blanding’s Turtles (Emydoidea blandingii) in the Eastern Great Lakes & Northeast RegionsBrianna Nycole Bassett (19195471) 23 July 2024 (has links)
<p dir="ltr">The Blanding’s Turtle (<i>Emydoidea blandingii</i>) is a species of conservation needs that ranges across the U.S Midwest and Northeast, and Ontario/Nova Scotia, Canada. The species has experienced several range expansions and contractions due to glacial dynamics and industrial landscape changes, which have led to population isolation and bottlenecks. Understanding genetic variation and population structure across the species’ geographic range is essential for conservation efforts to maintain and restore populations. While several regional studies have evaluated genetic variation in <i>E. blandingii</i>, there has been little population sampling across Michigan and limited attempts to directly compare genetic variation across extensively sampled populations within both its main range and disjunct segments in the Northeast U.S. In this study, I utilized 12 microsatellite loci to directly compare the genetic diversity of <i>E. blandingii</i> across 153 localities in a portion of the Great Lakes and the Northeast of the range. Additionally, 13 microsatellite loci were used to assess genetic diversity across 92 localities in Indiana, Ohio, and Michigan, including further sampling within Michigan. My findings confirmed higher genetic diversity within the Great Lakes compared to the Northeast and revealed greater genetic differentiation in the Northeast than in the Great Lakes. Population structure in both regions was influenced by distance (IBD) and watersheds, with a more pronounced effect in the Northeast. Using four different genetic clustering approaches (PCA, sPCA, STRUCTURE, and TESS3r), I identified three range-wide clusters, three within the Northeast, and three within the Great Lakes. Within the Great Lakes, estimates of effective population size (<i>N</i>e) were high at both the population and watershed level, although influenced by sample size. The long lifespans of <i>E. blandingii</i> likely contribute to high levels of genetic diversity, while post-glacial gene flow across the landscape has resulted in low to moderate levels of differentiation within the regions. This study highlights poorly understood population structure and differences in genetic diversity between regions. Although Great Lakes populations are less isolated and more genetically diverse than those in the Northeast, this does not suggest that they are secure. Both regions face potential genetic loss over the next century, requiring further management implications to mitigate any further decline.</p>
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Selective improvement of rainbow trout : assessment of potential in UK strainsUreta Schmidt, José P. January 2009 (has links)
The research assessed the potential of developing a selective breeding programme for the UK rainbow trout industry. Levels of genetic variation at 12 microsatellite loci were first compared in seven different commercial strains. The Observed heterozygosity ranged from Ho = 48.1% in a gold rainbow trout strain (GTR) to Ho = 66.4% in a newly derived broodstock population constructed from a number of different sources (GIT). The Expected Heterozygosity (He) was highest in GIM1 (He= 79.5%) and lowest in the GTR strain (He = 56.9%). The Effective number of alleles (Mae) showed that the GIM1, GIM2, GIM3, and GIT strain (5.4; 5.2; 4.8; 4.2) were significantly more variable than the other strains and that GTR strain had the lowest value (2.5). There appears to be substantial genetic variability within the commercial United Kingdom rainbow trout strains surveyed in this study. This appears to be the case despite very different management histories and levels of record keeping. The strains appear to be genetically distinct (based on population genetic analyses), though the reasons for this remain unclear (and possibly unanswerable given the poor records kept by the different companies). The Glenwyllin farm strains (GIM) were chosen to form the base population for the project because of their high genetic variability, disease free status and because the farm produced around 20 million ova per year, so any genetic gains would have a widespread impact. The farm has an early (Strain A) and a late spawning (Strain B) and these were mated in a partial factorial design, 20 females and 20 neomales per strain (A & B) were chosen on the basis of maturity and gamete quality in November 2002 so that each male was crossed to 4 females (2 in the same strain and 2 in the other), a total of 160 families were created. All broodstock were biopsied to enable them to be genotyped. The families were reared separately up to the eyed stage at which point the eggs from each family were divided into three to generate three communal replicate populations. One of these was sent to a fingerling producer (Iwerne Spring) for ongrowing to fingerling size and formed the basis of a commercial production trial at Test Valley Trout farm (TVT) in Hampshire. When the fish reached an average weight of 5 g they were transferred from Iwerne Spring to TVT and 1500 were randomly selected, PIT tagged and biopsied to enable them to be assigned to their family using 11 multiplexed microsatellite loci. Parental assignment was based on exclusion (FAP) but the results were compared with another parental assignment based on likelihood (PAPA). Of the 1500 offspring (OIM) PIT tagged 1242 82.8% could be assigned to a single family utilizing different combinations of more than 6 loci (6 to 11). The growth of the 1500 OIM fish was tracked throughout the grow out period before they were finally harvested and fully processed. The results of OIM strain at the end of the trial period were mean weight of 415.5 g, and a mean length of 314.5 mm. The visual measurement of colour gave a mean flesh colour values of 26.01 on the 20-34 scale (SalmoFan™), and 11.0 with the colotimetry evaluation of colour (a*). The heritability results for the IOM strain were 43 ± 9% for weight, 42 ± 9% for gutted, and 28 ± 8% for length. The heritability estimates for the visual colour variables were 19 ± 7% and when using the colorimeter, the red chromaticity (a*) heritability was 14 ± 6%. Therefore, the heritability results of the IOM strain indicate that there are opportunities of substantial and rapid improvement of the growth rate and flesh colour traits. Also no line effects were observed or indications of non-additive genetic variation. In contrast to these last results, the overall survival of the GIM strain from the time of the physical tagging with PIT until harvest was 52.8%, and survival heritability was extremely low, 3 ± 2%, hardly significant.
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Implications d'AXIN2 et de l'instabilité microsatellite dans le développement des tumeurs du cortex-surrénalienChapman, Audrey 12 1900 (has links)
Les lésions tumorales cortico-surrénaliennes sont majoritairement des adénomes bénins et très rarement des carcinomes. Les altérations génétiques impliquées dans le développement des tumeurs cortico-surrénaliennes sporadiques, plus particulièrement au stade malin, demeurent à ce jour très peu connues. Lors de travaux récents menant à l’identification d’altérations génétiques de β-CATÉNINE nous avons constaté que plusieurs tumeurs présentaient une accumulation nucléo/cytoplasmique de la protéine β-CATÉNINE sans toutefois contenir de mutations pour ce gène. Nous avons donc émis l’hypothèse que, comme pour d’autres types de cancers, d’autres composants de la voie de signalisation Wnt/β-CATÉNINE, tel qu’AXIN2, pourrait être impliqués dans le développement des tumeurs du cortex surrénalien. De plus, plusieurs aberrations dans l’expression d’AXIN2 et de β-CATÉNINE sont associées à des tumeurs présentant de l’instabilité microsatellite dans d’autres types de cancer, notamment le cancer gastrique et colorectal. Nous avons donc étudié une cohorte de 30 adénomes, 6 carcinomes, 5 AIMAH, 3 hyperplasies ACTH-dépendante et 5 PPNAD ainsi que les lignées cellulaires de carcinomes cortico-surrénaliens humains H295R et SW13. Une étude préliminaire du statut MSI a également été réalisée sur 10 tumeurs contenant une mutation pour AXIN2 et/ou β-CATÉNINE. Nous avons trouvé des mutations d’AXIN2 dans 7% des adénomes (2/30) et 17% des carcinomes (1/6) cortico-surrénaliens. L’analyse fonctionnelle des mutations par immunohistochimie, analyse western blot et analyse de RT-PCR en temps réel a révélé une diminution de l’expression d’AXIN2 associée à cette mutation. L’analyse préliminaire MSI a démontré 1 échantillon AIMAH MSI-H, c’est-à-dire instable pour le locus BAT-25 et BAT-26 et 3 autres adénomes sécrétant de l’aldostérone instables seulement pour le locus BAT-26. Ainsi, ces travaux permirent d’identifier une nouvelle altération génétique associée au développement des tumeurs du cortex surrénalien en plus de rapporter pour la première fois la présence de MSI-H dans ce type de tumeurs. / Adrenocortical lesions are mostly benign tumors and rarely carcinomas. From now on, genetic alterations implicated in sporadic adrecocortical tumour development remains largely unknown. In our previous work leading to identification of genetic alterations in β-catenin, we observed that many tumors presented a nucleo/cytoplasmic accumulation of β-catenin protein without β-catenin mutations. Thus, we hypothesised that, as for many others cancers, others components of the Wnt/ β-catenin signalling pathway, as AXIN2, are implicated in development of adrenocortical tumors. Also, many aberrations in AXIN2 and β-catenin expression have been reported in association with microsatellite instability in other types of cancers like gastroinstestinal and colorectal cancer. We have studied 30 adenomas, 6 carcinomas, 5 AIMAH, 3 ACTH-dependant hyperplasias and 5 PPNAD as well as the human carcinoma cancer cells lines H295R and SW13. Preliminary study for MSI was also realised on 10 tumors harbouring AXIN2 and/or Β-CATENIN mutations. We have found AXIN2 mutations in 7% of adrenocortical adenomas (2/30) and 17% of adrenocortiocal carcinomas. Functional analysis of this mutation by immunohistochemical, western blot and real-time RT-PCR analysis revealed a down-regulation of AXIN2 expression associated with this mutation. Preliminary analysis of MSI results in 1 AIMAH sample MSI-H, which means instable for BAT-25 and BAT-26 locus, and 2 aldosterone adenomas were unstable for BAT-26 locus. This work identified a new genetic alteration involved in adrenocortical tumour development and report for the first time MSI-H in this type of tumor.
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Influence des routes sur la variance du succès reproducteur des populations de tortues peintes (Chrysemys Picta)Silva-Beaudry, Claude-Olivier January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Variations dans la réponse de la diversité génétique de populations de couleuvres insulaires faisant face à la perte d’habitatLamarre, Philippe 05 1900 (has links)
Projet de recherche réalisé avec Bernard Angers comme directeur de maîtrise, Denis Réale en tant que co-directeur et grâce à la collaboration active d'Emmanuel Milot. / La région métropolitaine de Montréal est formée de nombreuses îles à la jonction du fleuve Saint-Laurent et de la rivière des Outaouais, isolant ainsi les populations insulaires en fonction de distances respectives ainsi que des courants. Ce système offre un contexte idéal pour évaluer l’effet de la perte d’habitat liée à la pression d'urbanisation dans un paysage métropolitain insulaire ou en situation d’archipel. La présente étude a pour objectif de comparer l’effet de la perte d’habitat sur la diversité génétique de deux serpents très distincts, Storeria dekayi et Thamnophis sirtalis. Des analyses réalisées à l’aide de marqueurs microsatellites révèlent une plus importante structure génétique entre les populations de S. dekayi (FST=0,19) qu’entre celles de T. sirtalis (FST=0,07) dans la région montréalaise. Chez les deux espèces étudiées, la majorité des populations des habitats réduits présente une richesse allélique moyenne comparable à celle observée dans les habitats plus vastes. Néanmoins, certaines populations présentent des réponses différentes, dont des traces de goulots d’étranglement, une perte de richesse allélique ou encore une importante modification des fréquences alléliques. Au niveau régional, les résultats présentent une importante perte de diversité génétique chez les couleuvres se trouvant sur le continent alors que les populations insulaires de la région montréalaise constituent désormais un réservoir de diversité génétique. Les résultats observés auprès des populations insulaires démontrent que les effets de la perte d’habitat peuvent s’avérer très spécifiques à chaque situation et que la détection de traces génétiques d’un tel phénomène peut nécessiter un contexte logistique très particulier. Un nombre croissant de publications reportent une absence de signature génétique suite à la perte d’habitat chez des oiseaux et des mammifères. Il s’agit de la première étude témoignant de ce phénomène chez les reptiles. Une note est fournie en annexe à l’intention des gestionnaires au sujet de la conservation de la couleuvre brune, S. dekayi. / The Montreal metropolitan community includes numerous islands located at the confluence of the Saint-Lawrence and Ottawa Rivers. In such a fragmented landscape, dispersal of animals is limited by the distance between islands as well as the currents. This system offers an ideal context for the study of the effects of habitat loss on the genetic diversity of animal populations located on islands or archipelagos. This study seeks to assess the effects of habitat area by comparing the organization of genetic diversity of two highly distinct snake species, Storeria dekayi and Thamnophis sirtalis. Analysis realized with microsatellite markers reveals a much stronger genetic organisation in S. dekayi (FST=0.19) than in T. sirtalis (FST=0.07) in the Montreal area. For both studied species, most populations found in reduced habitats showed similar genetic diversity to what was observed in larger habitats. Nevertheless, some populations showed different responses to the loss of habitat, including traces of genetic bottlenecks, a loss in mean allelic richness or an important alteration of their allelic frequencies. This study also reveals an important loss of genetic diversity in the continental snake populations. At the regional scale, the results reveal an important loss of genetic diversity in the continental snake populations and that the insular populations of the Montreal area now constitute a reservoir of the remnant genetic diversity. Moreover, this study not only demonstrates that the genetic response to habitat loss can be very case-specific, but also that to detect traces of such a phenomenon can require a very particular framework. A growing number of publications based on birds and mammals have reported the absence of a genetic signature following a habitat loss. This is the first study to report this phenomenon in reptiles. A note intended for managers is provided about the conservation of the Dekay’s brown snake, S. dekayi.
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Diversité génétique et aromatique de la truffe de Bourgogne / Genetic and aromatic diversity of the Burgundy truffleMolinier, Virginie 25 April 2013 (has links)
Les Truffes sont des champignons ascomycètes ectomycorhiziens appartenant à la famille des Tuberaceae et plus précisément au genre Tuber. On dénombre à ce jour plus d’une trentaine d’espèces de Tuber en Europe. Lors de ce travail de thèse, nous nous sommes plus précisément focalisés sur le modèle Tuber aestivum-uncinatum. Cette truffe communément appelée « Truffe de Bourgogne » présente un intérêt à la fois gastronomique et culturel.La première partie de ce travail de thèse a porté sur la clarification du statut taxonomique de la truffe de Bourgogne (Tuber uncinatum). Pour cela, nous avons utilisé une approche multi-marqueurs combinant des marqueurs génétiques couramment utilisés à l’échelle interspécifique. Nos analyses ont montré que les deux taxons Tuber aestivum (la truffe d’été) et Tuber uncinatum sont conspécifiques. Durant la deuxième partie, nous nous sommes intéressés à la diversité génétique de Tuber aestivum. Pour cela, nous avons tout d’abord développé des marqueurs microsatellites spécifiques par une approche de « direct shotgun pyrosequencing ». Cette méthode a permis le développement de 15 marqueurs microsatellites polymorphes. Nous les avons ensuite utilisés pour génotyper des individus provenant de différentes localisations en Europe. Nous avons pu identifier quatre sous populations différenciées qui ne correspondent pas, pour la majorité, à une répartition géographique. Cependant, un des clusters se différencie des autres à la fois par sa situation géographique (sud de la France) et ses caractéristiques génétiques (présence d’allèles rares). Ces résultats préliminaires pourraient indiquer l’existence d’un écotype particulier attaché à une écologie méridionale, Tuber aestivum sensu stricto.Nous nous sommes ensuite intéressés, dans la troisième partie de ce travail de thèse à la diversité aromatique de Tuber aestivum à l’échelle locale. Les résultats obtenus permettent de mettre en évidence l’existence d’une différenciation modérée entre les individus issus d’une truffière naturelle et les individus issus d’une truffière plantée. D’une saison de récolte à l’autre, une stabilité génotypique a été observée. Au niveau aromatique, seuls les composés C8 semblent être liés aux génotypes.Dans la dernière partie, nous nous sommes intéressés à l’analyse de données de récolte sur plus de trente ans au sein d’une truffière plantée de noisetiers inoculés initialement par Tuber melanosporum. Grâce à des analyses statistiques simples, nous avons pu noter les fluctuations tant en quantité qu’en poids des truffes récoltées suivant les saisons et les arbres truffiers. Il apparait que le remplacement de Tuber melanosporum par Tuber aestivum s’est fait de manière très rapide (trois ans). La disparition de Tuber melanosporum peut probablement être expliquée par la fermeture de la canopée des noisetiers, Tuber melanosporum n’appréciant pas un ombrage excessif / Truffles are ectomycorrhizal Ascomycota fungi belonging to the Tuberaceae family and more specifically to the Tuber genus. More than thirty Tuber species are currently described in Europe. In this thesis, we specifically focused on the Tuber aestivum-uncinatum model. This truffle is commonly called "Burgundy Truffle" and has a gastronomic and cultural interest.The first part of this thesis focused on the taxonomic status of the Burgundy truffle (Tuber uncinatum). For this, we used a multi-marker approach combining several genetic markers commonly used at the interspecific scale. Our analyses showed that the two taxa, Tuber aestivum (summer truffle) and Tuber uncinatum are conspecific.In the second part, we addressed the genetic diversity of Tuber aestivum. To do this, we firstly developed specific microsatellite markers by "direct shotgun pyrosequencing". This method has allowed the development of 15 polymorphic microsatellite markers. Then, we used those markers to genotype individuals from different European locations. We have identified four differentiated subpopulations that not correspond, for the majority, to a geographical distribution. However, one cluster differs from the others by its location (south of France) and its genetic characteristics (presence of rare alleles). These preliminary results may indicate the existence of a particular ecotype attached to a southern ecology: Tuber aestivum sensu stricto.We were then interested, in the third part of this thesis, to the aromatic diversity of Tuber aestivum at a local scale. Our results highlight the existence of a moderate differentiation between individuals from a natural truffle orchard and individuals from planted orchard. From one season to another, genotypic stability was observed. Only C8 volatile organic compounds seem to be related to the genotypes.In the last part, we analyzed harvesting data, over more than thirty years, from an hazelnut truffle orchard initially inoculated by Tuber melanosporum. Through simple statistical analyzes, we noted changes in both quantity and weight of truffles harvested according to the seasons and hazelnut trees. It appears that Tuber aestivum rapidly replaced Tuber melanosporum (in three years). The disappearance of Tuber melanosporum can probably be explained by the canopy closure; Tuber melanosporum not appreciating excessive shading.
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Analyse von Mikrosatelliteninstabilität und hMSH2-Expression bei Patienten mit akuter myeloischer Leukämie / Analysis of microsatellite instability and hMSH2 expression in patients with acute myeloid leukemiaKohaus, Petra 20 June 2017 (has links)
No description available.
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