Global ETD Search

581	Colloidal Synthesis and Photophysical Characterization of Group IV Alloy and Group IV-V Semiconductors: Ge1-xSnx and Sn-P Quantum Dots Tallapally, Venkatesham 01 January 2018 (has links) Nanomaterials, typically less than 100 nm size in any direction have gained noteworthy interest from scientific community owing to their significantly different and often improved physical properties compared to their bulk counterparts. Semiconductor nanoparticles (NPs) are of great interest to study their tunable optical properties, primarily as a function of size and shape. Accordingly, there has been a lot of attention paid to synthesize discrete semiconducting nanoparticles, of where Group III-V and II-VI materials have been studied extensively. In contrast, Group IV and Group IV-V based nanocrystals as earth abundant and less-non-toxic semiconductors have not been studied thoroughly. From the class of Group IV, Ge1-xSnx alloys are prime candidates for the fabrication of Si-compatible applications in the field of electronic and photonic devices, transistors, and charge storage devices. In addition, Ge1-xSnx alloys are potentials candidates for bio-sensing applications as alternative to toxic materials. Tin phosphides, a class of Group IV-V materials with their promising applications in thermoelectric, photocatalytic, and charge storage devices. However, both aforementioned semiconductors have not been studied thoroughly for their full potential in visible (Vis) to near infrared (NIR) optoelectronic applications. In this dissertation research, we have successfully developed unique synthetic strategies to produce Ge1-xSnx alloy quantum dots (QDs) and tin phosphide (Sn3P4, SnP, and Sn4P3) nanoparticles with tunable physical properties and crystal structures for potential applications in IR technologies. Low-cost, less-non-toxic, and abundantly-produced Ge1-xSnx alloys are an interesting class of narrow energy-gap semiconductors that received noteworthy interest in optical technologies. Admixing of α-Sn into Ge results in an indirect-to-direct bandgap crossover significantly improving light absorption and emission relative to indirect-gap Ge. However, the narrow energy-gaps reported for bulk Ge1-xSnx alloys have become a major impediment for their widespread application in optoelectronics. Herein, we report the first colloidal synthesis of Ge1-xSnx alloy quantum dots (QDs) with narrow size dispersity (3.3±0.5 – 5.9±0.8 nm), wide range of Sn compositions (0–20.6%), and composition-tunable energy-gaps and near infrared (IR) photoluminescence (PL). The structural analysis of alloy QDs indicates linear expansion of cubic Ge lattice with increasing Sn, suggesting the formation of strain-free nanoalloys. The successful incorporation of α-Sn into crystalline Ge has been confirmed by electron microscopy, which suggests the homogeneous solid solution behavior of QDs. The quantum confinement effects have resulted in energy gaps that are significantly blue-shifted from bulk Ge for Ge1-xSnx alloy QDs with composition-tunable absorption onsets (1.72–0.84 eV for x=1.5–20.6%) and PL peaks (1.62–1.31 eV for x=1.5–5.6%). Time-resolved PL (TRPL) spectroscopy revealed microsecond and nanosecond timescale decays at 15 K and 295 K, respectively owing to radiative recombination of dark and bright excitons as well as the interplay of surface traps and core electronic states. Realization of low-to-non-toxic and silicon-compatible Ge1-xSnx QDs with composition-tunable near IR PL allows the unprecedented expansion of direct-gap Group IV semiconductors to a wide range of biomedical and advanced technological studies. Tin phosphides are a class of materials that received noteworthy interest in photocatalysis, charge storage and thermoelectric devices. Dual stable oxidation states of tin (Sn2+ and Sn4+) enable tin phosphides to exhibit different stoichiometries and crystal phases. However, the synthesis of such nanostructures with control over morphology and crystal structure has proven a challenging task. Herein, we report the first colloidal synthesis of size, shape, and phase controlled, narrowly disperse rhombohedral Sn4P3, hexagonal SnP, and amorphous tin phosphide nanoparticles (NPs) displaying tunable morphologies and size dependent physical properties. The control over NP morphology and crystal phase was achieved by tuning the nucleation/growth temperature, molar ratio of Sn/P, and incorporation of additional coordinating solvents (alkylphosphines). The absorption spectra of smaller NPs exhibit size-dependent blue shifts in energy gaps (0.88–1.38 eV) compared to the theoretical value of bulk Sn3P4 (0.83 eV), consistent with quantum confinement effects. The amorphous NPs adopt rhombohedral Sn4P3 and hexagonal SnP crystal structures at 180 and 250 °C, respectively. Structural and surface analysis indicates consistent bond energies for phosphorus across different crystal phases, whereas the rhombohedral Sn4P3 NPs demonstrate Sn oxidation states distinctive from those of the hexagonal and amorphous NPs owing to complex chemical structure. All phases exhibit N(1s) and ʋ(N-H) energies suggestive of alkylamine surface functionalization and are devoid of tetragonal Sn impurities. Li- and Na- Ion Batterry Anode Materials Bio-Imaging and Sensing Inorganic Chemistry Materials Chemistry
582	Eine Voxel-basierte morphometrische Untersuchung der Effekte von Suszeptibilitätsgenen der Schizophrenie auf hirnregionale Volumina der grauen Substanz / A voxel-based morphometric study about the effects of susceptibility genes for schizophrenia on grey matter volumes Platz, Birgit 08 October 2012 (has links) No description available. 610 Medizin, Gesundheit MED 540 Medicine Suszeptibilitätsgene SNP DTNBP-1 rs2619522 rs1018381 NRG-1 rs4733263 DISC-1 rs821616 rs6675281 G72 rs778294 rs1935058 MRT VBM Endophänotyp Schizophrenie Imaging Genetics Hippokampus susceptibility genes single nucleotide polymorphism DTNBP-1 rs2619522 rs1018381 NRG-1 rs4733263 DISC-1 rs821616 rs6675281 G72 rs778294 rs1935058 MRI VBM schizophrenia imaging genetics 44.91
583	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
584	Alternative strategies for deciphering the genetic architecture of childhood Pre-B acute lymphoblastic leukemia Healy, Jasmine 06 1900 (has links) La leucémie lymphoblastique aigüe (LLA) est une maladie génétique complexe. Malgré que cette maladie hématologique soit le cancer pédiatrique le plus fréquent, ses causes demeurent inconnues. Des études antérieures ont démontrées que le risque à la LLA chez l’enfant pourrait être influencé par des gènes agissant dans le métabolisme des xénobiotiques, dans le maintient de l’intégrité génomique et dans la réponse au stress oxydatif, ainsi que par des facteurs environnementaux. Au cours de mes études doctorales, j’ai tenté de disséquer davantage les bases génétiques de la LLA de l’enfant en postulant que la susceptibilité à cette maladie serait modulée, au moins en partie, par des variants génétiques agissant dans deux voies biologiques fondamentales : le point de contrôle G1/S du cycle cellulaire et la réparation des cassures double-brin de l’ADN. En utilisant une approche unique reposant sur l’analyse d’une cohorte cas-contrôles jumelée à une cohorte de trios enfants-parents, j’ai effectué une étude d’association de type gènes/voies biologiques candidats. Ainsi, j’ai évaluer le rôle de variants provenant de la séquence promotrice de 12 gènes du cycle cellulaire et de 7 gènes de la voie de réparation de l’ADN, dans la susceptibilité à la LLA. De tels polymorphismes dans la région promotrice (pSNPs) pourraient perturber la liaison de facteurs de transcription et mener à des différences dans les niveaux d’expression des gènes pouvant influencer le risque à la maladie. En combinant différentes méthodes analytiques, j’ai évalué le rôle de différents mécanismes génétiques dans le développement de la LLA chez l’enfant. J’ai tout d’abord étudié les associations avec gènes/variants indépendants, et des essaies fonctionnels ont été effectués afin d’évaluer l’impact des pSNPs sur la liaison de facteurs de transcription et l’activité promotrice allèle-spécifique. Ces analyses ont mené à quatre publications. Il est peu probable que ces gènes de susceptibilité agissent seuls; j’ai donc utilisé une approche intégrative afin d’explorer la possibilité que plusieurs variants d’une même voie biologique ou de voies connexes puissent moduler le risque de la maladie; ces travaux ont été soumis pour publication. En outre, le développement précoce de la LLA, voir même in utero, suggère que les parents, et plus particulièrement la mère, pourraient jouer un rôle important dans le développement de cette maladie chez l’enfant. Dans une étude par simulations, j’ai évalué la performance des méthodes d’analyse existantes de détecter des effets fœto-maternels sous un design hybride trios/cas-contrôles. J’ai également investigué l’impact des effets génétiques agissant via la mère sur la susceptibilité à la LLA. Cette étude, récemment publiée, fût la première à démontrer que le risque de la leucémie chez l’enfant peut être modulé par le génotype de sa mère. En conclusions, mes études doctorales ont permis d’identifier des nouveaux gènes de susceptibilité pour la LLA pédiatrique et de mettre en évidence le rôle du cycle cellulaire et de la voie de la réparation de l’ADN dans la leucémogenèse. À terme, ces travaux permettront de mieux comprendre les bases génétiques de la LLA, et conduiront au développement d’outils cliniques qui amélioreront la détection, le diagnostique et le traitement de la leucémie chez l’enfant. / Childhood acute lymphoblastic leukemia (ALL) is a complex and heterogeneous genetic disease. Although it is the most common pediatric cancer, its etiology remains poorly understood. Previous studies provided evidence that childhood ALL might originate through the collective contribution of different genes controlling the efficiency of carcinogen metabolism, the capacity of maintaining DNA integrity and the response to oxidative stress, as well as environmental factors. In my doctoral research project I attempted to further dissect the genetic intricacies underlying childhood ALL. I postulated that a child’s susceptibility to ALL may be influenced, in part, by functional sequence variation in genes encoding components of two core biologic pathways: G1/S cell cycle control and DNA double-strand break repair. Using a unique two-tiered study design consisting of both unrelated ALL cases and healthy controls, as well as case-parent trios, I performed a pathway-based candidate-gene association study to investigate the role of sequence variants in the promoter regions of 12 candidate cell cycle genes and 7 DNA repair genes, in modulating ALL risk among children. Polymorphisms in promoter regions (pSNPs) could perturb transcription factor binding and lead to differences in gene expression levels that in turn could modify the risk of disease. To better depict the complex genetic architecture of childhood ALL, I used multiple analytical approaches. First, individual genes/variants were tested for association with disease, while functional in vitro validation was performed to evaluate the impact of the pSNPs on differential transcription factor binding and allele-specific promoter activity. These analyses led to four published articles. Given that these genes are not likely to act alone to confer disease risk I used an integrative approach to explore the possibility that combinations of functionally relevant pSNPs among several components of the same or of interconnected pathways, could contribute to modified childhood ALL risk either through pathway-specific or epistatic effects; this work was recently submitted for publication. Finally, childhood ALL is thought to arise in utero suggesting that the parents, and in particular the mother, may play an important role in shaping disease susceptibility in their offspring. Using simulations, I investigated the performance of existing methods to test for maternal genotype associations using a case-parent trio/case-control hybrid design, and then assessed the impact of maternally-mediated genetic effects on ALL susceptibility among children. This published work was the first to show that the mother’s genotype can indeed influence the risk of leukemia in children, further corroborating the importance of considering parentally-mediated effects in the study of early-onset diseases. In conclusion, my doctoral work lead to the identification of novel genetic susceptibility loci for childhood ALL and provided evidence for the implication of the cell cycle control and DNA repair pathways in leukemogenesis. Better elucidation of the genetic mechanisms underlying the pathogenesis of ALL in children could be of great diagnostic value and provide data to help guide risk-directed therapy and improve disease management and outcome. Ultimately, this study brings us one step closer to unraveling the genetic architecture of childhood ALL and provides a stepping-stone towards disease prevention. épidémiologie génétique susceptibilité génétique polymorphisme régulateur cycle cellulaire réparation de l’ADN voie biologique interaction gène-gène association génétique fœto-maternelle childhood acute lymphoblastic leukemia genetic epidemiology genetic susceptibility promoter SNP cell cycle DNA repair pathway gene-gene interaction maternally-mediated genotype effect
585	Chapter 1: In Search of Innate Leadership : Discovering, Evaluating and Understanding Innateness Morra, Erica, Zenker, Lisa January 2014 (has links) Every individual is born with different natural competencies that can be honed by both voluntary and involuntary environmental stimuli. The response our genotype decides to make, if any, towards those stimuli, determines how well our competencies develop. Each person’s coding and variations of genes will result in unique qualities in their phenotype, or physical structure. As a result, a person has various traits that are displayed through their behavior. DNA is genetically shown to express itself through traits by up to 75%. This leaves a sort of buffer of around 25%. This region is available for us to adapt to our environmental stimuli. Your innate qualities will not reach their full potential without stimulation from the environment, in a leadership case, with education and training and therefore it can be argued that environmental exposure is necessary to fully expose the potentials and capabilities of an individual, rather than instill a new skill or develop a talent that was not existent before. Innate leadership is not a permanent state, on the contrary, it is a continuously adaptive situation demanding contextual evolutionary changes or resignation from the subject occupying the role. When the needs and demands of a society or era outweigh the relevance of the innate leaders' traits and competencies, an evolution of leadership is needed to maintain a positive relationship between all parties involved. As a result, the innate leader will begin to lose their innateness in their role and unless they evolve and adapt (because the two actions are not the same) to new contextual needs, their tenure as leader will begin to be detrimental and counter-functional. What we want to put forward is a real, universal and constructive understanding of what makes a human happy, motivated and productive and how an innate person in context is a much better solution in the short and long run, for those around them when put to a task. genetic inheritability gene expression genetic determination gene mutation case study innatism traits leadership behaviour brain development brain function neural pathway neural coding SNP variation connectomics genomics heritability leadership theory DNA competencies environment education behavioural psychology genetics trait theory nature vs nurture dopamine neurotransmitters polygenetic traits Google Hitler personality innate leadership Morra Zenker
586	Analysis of genetic polymorphisms for statistical genomics: tools and applications Morcillo Suárez, Carlos 19 December 2011 (has links) New approaches are needed to manage and analyze the enormous quantity of biological data generated by modern technologies. Existing solutions are often fragmented and uncoordinated and, thus, they require considerable bioinformatics skills from users. Three applications have been developed illustrating different strategies to help users without extensive IT knowledge to take maximum profit from their data. SNPator is an easy-to-use suite that integrates all the usual tools for genetic association studies: from initial quality control procedures to final statistical analysis. CHAVA is an interactive visual application for CNV calling from aCGH data. It presents data in a visual way that helps assessing the quality of the calling and assists in the process of optimization. Haplotype Association Pattern Analysis visually presents data from exhaustive genomic haplotype associations, so that users can recognize patterns of possible associations that cannot be detected by single-SNP tests. / Calen noves aproximacions per la gestió i anàlisi de les enormes quantitats de dades biològiques generades per les tecnologies modernes. Les solucions existents, sovint fragmentaries i descoordinades, requereixen elevats nivells de formació bioinformàtica. Hem desenvolupat tres aplicacions que il•lustren diferents estratègies per ajudar als usuaris no experts en informàtica a aprofitar al màxim les seves dades. SNPator és un paquet de fàcil us que integra les eines usades habitualment en estudis de associació genètica: des del control de qualitat fins les anàlisi estadístiques. CHAVA és una aplicació visual interactiva per a la determinació de CNVs a partir de dades aCGH. Presenta les dades visualment per ajudar a valorar la qualitat de les CNV predites i ajudar a optimitzar-la. Haplotype Pattern Analysis presenta dades d’anàlisi d’associació haplotípica de forma visual per tal que els usuaris puguin reconèixer patrons de associacions que no es possible detectar amb tests de SNPs individuals. Genetic Polymorphism Bioinformatics Web Application Web Service Genetic Mapping Association Analysis SNP CNV calling HMM Visual Display Evolutionary Algorithm Haplotype Analysis Linkage Disequilibrium Polimorfisme Genètic Bioinformàtica Aplicació Web Servei Web Mapatge Genètic Anàlisi d'Associació Representació Visual Algoritme Evolutiu Anàlisi d’Haplotips 575
587	Caractérisation génétique de l'effort reproducteur de l'huitre creuse, Crassostrea gigas, dans le cadre des mortalités estivales de juvéniles : approche QTL / Genetic characterization of reproductive effort in pacific oyster, crassostrea gigas, in the context of summer mortality of spat : QTL approach Flahauw, Emilie 20 September 2013 (has links) L’huître creuse, Crassostrea gigas, est une espèce dont la production aquacole représente un intérêt économique tant au niveau mondial qu’aux niveaux européen et français. Cependant, cette espèce subit des mortalités estivales enregistrées dès le début du 20ème siècle et, depuis 2008, ce phénomène s’est amplifié et menace essentiellement les huîtres juvéniles. La production aquacole d’huître creuse subit les conséquences de ces mortalités massives ; c’est pourquoi ce phénomène est étudié depuis de nombreuses années. En France, la bactérie Vibrio splendidus et le virus Ostreid Herpes Virus 1 (OsHV-1) sont le plus souvent associés aux épisodes de mortalités massives d’huîtres creuses juvéniles et il a été démontré que les individus sélectionnés pour leur résistance aux mortalités estivales étaient capables de ralentir l’augmentation de la charge virale en OsHV-1 dans leurs tissus puis de la faire régresser. Ces mêmes individus présenteraient également un effort reproducteur plus modeste que des individus sélectionnés pour leur sensibilité aux mortalités estivales. Ce travail de thèse s’inscrit dans ce contexte et a donc eu pour principal objectif d’améliorer la connaissance de l’architecture génétique de la reproduction de C. gigas en identifiant des régions du génome ou QTLs (Quantitative Trait Loci) impliquées dans l’effort reproducteur et de mettre en évidence d’éventuelles relations génétiques entre survie et reproduction, des QTLs impliqués dans la survie ayant déjà été détectés. Afin de caractériser l’effort reproducteur, il a été nécessaire de développer un ensemble de nouveaux outils. D’un point de vue biologique, 21 familles F2 ont été produites à partir des lignées sélectionnées pour leur réponse contrastée aux mortalités estivales. D’un point de vue moléculaire, de nouveaux marqueurs SNP (Single Nucleotide Polymorphism) ont été développés afin d’augmenter la densité de la carte génétique déjà disponible pour C. gigas. D’un point de vue technique, l’Imagerie par Résonance Magnétique (IRM) a permis d’observer la gamétogenèse de 300 individus d’une même famille F2 au cours de huit sessions réparties sur deux années alors que les études précédentes étaient limitées à une observation ponctuelle; les méthodes classiques d’observation de la gamétogenèse entrainant nécessairement la mort des animaux. Une forte corrélation a été mise en évidence entre les observations par IRM et par la méthode classique de l’histologie. En plus de l’estimation du rapport gonado-somatique (indice traditionnellement utilisé pour caractériser l’effort reproducteur), l’IRM a également permis d’observer des variations individuelles de la cinétique de la gamétogenèse ainsi que des différences entre les mâles et les femelles; le sexe étant identifiable sur les images obtenues par IRM. Parallèlement, 300 individus de deux autres familles F2 ont été sacrifiés pour estimer le rapport gonado-somatique par histologie. Cette approche a ainsi permis de détecter des QTLs impliqués dans de nombreux traits concernant la gamétogenèse. Des individus provenant des trois familles F2 caractérisés pour l’effort reproducteur ont été caractérisés pour la survie à un épisode de mortalités estivales. Cette étude a permis de détecter des QTLs impliqués dans le caractère « survie ». Ces QTLs correspondent, pour certains, à ceux détectés au cours d’une étude précédente. De plus, ces QTLs sont parfois colocalisés avec des QTLs impliqués dans l’effort reproducteur. Bien que la reproduction de l’huître creuse soit un caractère complexe à suivre, les nouveaux outils utilisés au cours de ce travail de thèse ont permis d’acquérir de nouvelles connaissances. Le séquençage du génome complet de Crassostrea gigas ainsi que les nouvelles méthodes de séquençage pourront peut-être permettre d’affiner les régions QTLs détectées. / The Pacific oyster, Crassostrea gigas, is a major aquacultured species whose production represents an economic interest at worldwide, european and french levels. However, this species undergoes summer mortalities recorded from the beginning of the 20th century and, since 2008, this phenomenon increased and threatens mainly juvenile oysters. Aquaculture production of oysters suffers consequences of mass mortalities, that’s why this phenomenon has been studied for many years. In France, the bacterium Vibrio splendidus and the Ostreid virus Herpes Virus 1 (OsHV-1) are often associated with mass mortality outbreaks of juveniles oysters and it was demonstrated that selected individuals for resistance to summer mortality were able to slow the increasing in viral load OsHV-1 in their tissues and then to decline it. These same individuals also present a lighter reproductive effort than individuals selected for their sensitivity to summer mortality. In this context, this study aimed to improve the knowledge of genetic architecture of reproduction of C. gigas by identifying some regions of the genome called QTLs (Quantitative Trait Loci) involved in reproductive effort and highlighting possible genetic relationships between reproduction and survival; QTLs involved in survival being already detected. To characterize the reproductive effort, it was necessary to develop a set of new tools. From a biological point of view, 21 F2 families were produced from lines selected for their contrasting response to summer mortality. From a molecular point of view, new SNPs (Single NucleotidePolymorphism) were developed to increase density of the genetic map already available for C. gigas. On a technical point of view, Magnetic Resonance Imaging (MRI) allowed to observe the gametogenesis of 300 individuals of the same family F2 during eight sessions over two years while previous studies were limited to a one-time observation because of the conventional methods of observation of gametogenesis leading necessarily to the death of the animals. A strong correlation was found between observations by MRI and observations by the conventional method of histology. In addition to the estimation of gonadic index (index traditionally used to characterize there productive effort), MRI also revealed individual variations in kinetics of gametogenesis and differences between males and females, the sex being identifiable on MRI images. In parallel, 300 individuals from two F2 families were sacrificed to estimate the gonadic index by histology. This approach enabled the detection of QTLs involved in many gametogenesis traits. Individuals from the three families characterized for F2 reproductive effort were characterized for survival during a summer mortality outbreak. This study was able to detect QTLs involved in the trait "survival". These QTLs correspond to some of those detected in a previous study. In addition, these QTLs are often collocated with QTLs involved in reproductive effort. Although there production of the Pacific oyster is a complex trait to follow, the new tools used in this thesis allowed acquiring new knowledges. The sequencing of genome of Crassostrea gigas and Next-Generation Sequencing technologies may be able to help to refine the detected QTL regions. Huître creuse du pacifique Crassostrea gigas Mortalités estivales Survie Effort reproducteur Imagerie par résonance magnétique Histologie Marqueurs microsatellites Marqueurs SNP Cartographie de liaison Détection de QTL Pacific oyster Crassostrea gigas Summer mortality Survival Reproductive effort Magetic resonance imaging Histology Microsatellites SNPs Linkage mapping QTL detection
588	Demography of Birch Populations across Scandinavia Sendrowski, Janek January 2022 (has links) Boreal forests are particularly vulnerable to climate change, experiencing a much more drastic increase in temperatures and having a limited amount of more northern refugia. The trees making up these vast and important ecosystems already had to adapt previously to environmental pressures brought about by the repeated glaciations during past ice ages. Studying the patterns of adaption of these trees can thus provide valuable insights on how to mitigate future damage. This thesis presents and analyses population structure, demo- graphic history and the distribution of fitness effects (DFE) of the diploid Betula pendula and tetraploid B. pubescens across Scandinavia. Birches–being widespread in boreal forests as well as having great economical importance–constitute superb model species. The analyses of this work confirm the expectations on postglacial population expansion and diploid-tetraploid introgression. They furthermore ascertain the presence of two genetic clusters and a remarkably similar DFE for the species. This work also contributes with a transparent, reproducible and reusable pipeline which facilitates running similar analyses for related species. birch betula pubescens pendula betula pubescens betula pendula silver birch downy birch demography population structure distribution of fitness effects DFE dadi UMAP PCA ADMIXTURE polyDFE ice age glaciation tree boreal forest climate change adaption tetraploid diploid-tetraploid introgression Scandinavia genetic cluster pipeline snakemake bioinformatics reproducible population genetics postglacial population expansion demographic history FEEMS site-frequency spectrum SFS last glacial maximum LGM workflow python population expansion population growth EST-SFS 0-fold degenerate 4-fold degenerate maximum likelihood estimation MLE variant call format VCF single-nucleotide polymorphism SNP Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)

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