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The genomic signatures of adaptive evolution in PopulusWang, Jing January 2016 (has links)
Understanding the genetic basis of adaptive evolution, and how natural selection has shaped patterns of polymorphism and divergence within and between species are enduring goals of evolutionary genetics. In this thesis, I used whole genome re-sequencing data to characterize the genomic signatures of natural selection along different evolutionary timescales in three Populus species: Populus tremula, P. tremuloides and P. trichocarpa. First, our study shows multiple lines of evidence suggesting that natural selection, due to both positive and purifying selection, has widely shaped patterns of nucleotide polymorphism at linked neutral sites in all three species. Differences in effective population sizes and rates of recombination largely explain the disparate magnitudes and signatures of linked selection that we observe among species. Second, we characterize the evolution of genomic divergence patterns between two recently diverged aspen species: P. tremula and P. tremuloides. Our findings indicate that the two species diverged ~2.2-3.1 million years ago, coinciding with the severing of the Bering land bridge and the onset of dramatic climatic oscillations during the Pleistocene. We further explore different mechanisms that may explain the heterogeneity of genomic divergence, and find that variation in linked selection and recombination likely plays a key role in generating the heterogeneous genomic landscape of differentiation between the two aspen species. Third, we link whole-genome polymorphic data with local environmental variables and phenotypic variation in an adaptive trait to investigate the genomic basis of local adaptation in P. tremula along a latitudinal gradient across Sweden. We find that a majority of single nucleotide polymorphisms (SNPs) (>90%) identified as being involved in local adaptation are tightly clustered in a single genomic region on chromosome 10. The signatures of selection at this region are more consistent with soft rather than hard selective sweeps, where multiple adaptive haplotypes derived from standing genetic variation sweep through the populations simultaneously, and where different haplotypes rise to high frequency in different latitudinal regions. In summary, this thesis uses phylogenetic comparative approaches to elucidate how various evolutionary forces have shaped genome-wide patterns of sequence evolution in Populus. / <p>The research in this thesis was supported by the Swedish research council (to Pär K. Ingvarsson) and the JC Kempe Memorial Scholarship Foundation (to Jing Wang). The PhD study of Jing Wang in Sweden was funded by the State Scholarship from China Scholarship council.</p>
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Integrons in pseudomonads are associated with hotspots of genomic diversityWilson, Neil Lewis January 2008 (has links)
Thesis (PhD)--Macquarie University, Division of Environmental & Life Sciences, Department of Biological Sciences, 2008. / Bibliography: p. 257-274. / Literature review -- General materials and methods -- Characterisation of strain collection -- Distribution of integrons and gene cassettes in pseudomonas -- Genomic context of pseudomonas integrons -- Evolutionary analysis of pseudomonas spp. integrons 199 -- Final discussion -- Appendix -- References. / Integrons associated with mobile genetic elements have played a central role in the emergence and spread of multiple antibiotic resistance in many pathogenic bacteria. However, the discovery of integrons in the chromosomes of diverse, non-pathogenic bacteria suggests that integrons have a broader role in bacterial evolution. The Pseudomonas stutzeri species complex is a well studied model for bacterial diversity. Members of the complex are genetically closely related, but sub-taxa are not able to be defined by exclusively shared sets of phenotypic characters. Rather, on the basis of total DNA:DNA similarity, Ps. stutzeri strains have been divided into 17 different groups (termed genomovars). Two Ps. stutzeri strains have been found to contain Chromosomal Integrons (CIs). This thesis involved exploration of the hypothesis that a CI was present in the common ancestor of the Ps. stutzeri species complex and assessed the impact of integrons on diversity across all Pseudomonads. The history and significance of integrons is discussed in Chapter 1 as part of a literature review, and general materials and methods are provided in Chapter 2. Chapters 3 - 6 comprise the sections in which data generated during my PhD project are presented. A comprehensive analysis of the relationships between the strains being analysed is presented in Chapter 3. In Chapter 4, results of PCR and hybridisation screening for integrons across the strain collection are presented. In Chapter 5 the recovery of additional integrons and in depth sequence analysis of the recovered integrons are described. Finally, Chapter 6 contains statistical analyses of integron-associated genes and Chapter 7 contains a final discussion the most significant findings. Twenty-three Pseudomonas spp. strains were screened for the presence of integrons. All but three were found to contain integron-like sequences; however, most integron sequences recovered contained inactivated core integrons. viii Despite having a chromosomal locus, integrons in Pseudomonas were found to have properties indicative of frequent horizontal transfer. Evidence was also obtained which suggests that integrons have been acquired at the same locus on multiple independent occasions. This has not been observed in other families of chromosomal integrons and suggests that the loci at which integrons in Pseudomonas are found are hotspots for recombination. / Mode of access: World Wide Web. / xiii, 274 p. ill
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Mode d’évolution et taxonomie au sein du genre Aeromonas : que nous apprend l'étude de la diversité génétique et génomique ? / Mode of evolution and taxonomy within the genus Aeromonas : What do we know the genetic and genomic diversity ?Roger, Frédéric 04 July 2012 (has links)
L'étude des bactéries pathogènes opportunistes d'origine environnementale ayant des modes de vie variés, libre et autonome ou contraint à une niche spécifique représentée par l'hôte, présente un intérêt dans la compréhension de l'adaptation des bactéries à leurs hôtes et de l'apparition de nouveaux pathogènes. Le genre Aeromonas regroupe des bactéries communes des milieux aquatiques, principalement des eaux douces. Elles sont capables d'entretenir différents types de relations avec leurs hôtes (parasitisme/symbiose) et peuvent être hébergées par un large spectre d'organismes. Chez l'homme, elles sont la cause d'une large variété d'infections (gastroentérite, bactériémie, infection de la peau et des tissus mous, etc.) mais les difficultés d'identification des souches et une taxonomie confuse engendrent une méconnaissance de la pathogénicité réelle des différentes espèces décrites.Le but de ce travail était d'étudier les mécanismes d'évolution génomique et génétique à l'origine de la remarquable capacité d'adaptation des Aeromonas à leurs hôtes, notamment à l'homme. Une analyse comparative de la diversité génétique et génomique d'une large collection de 195 souches représentative des différentes espèces du genre et d'origines variées (humaine, animale et environnementale) a été menée. La diversité génétique a été appréhendée au moyen d'une approche multilocus incluant l'étude des séquences de 7 gènes de ménage (dnaK, gltA, gyrB, radA, rpoB, tsf, zipA). En parallèle, nous avons étudié la variabilité des copies multiples du gène rrs en explorant leur diversité génétique par une méthode d'électrophorèse en condition dénaturante (PCR-TTGE) et la variabilité du nombre et de la répartition des opérons rrn dans le chromosome de ces bactéries par électrophorèse en champ pulsé.Ces différentes approches nous ont permis de mettre en évidence : i) une diversité très élevée des 7 gènes de ménage analysés ainsi que l'existence de transferts latéraux, ii) l'existence de sous-groupes de souches adaptées à un hôte ou à une localisation anatomique particulière, iii) un nombre important d'opérons rrn (8 à 11), iv) l'existence de profils de distribution chromosomique des opérons rrn spécifique d'espèce ou de groupes d'espèces proches, v) une forte proportion (41,5%) des souches présentant une hétérogénéité de séquences des différentes copies du gène rrs. Nos résultats montrent également la valeur taxonomique de l'étude de la diversité génétique et génomique à l'aide des approches proposées au sein du genre Aeromonas.Nous montrons que : i) l'ARN ribosomique 16S est un marqueur informatif pour étudier les modes d'évolution et conduire des études de taxonomie mixte et consensuelle dans le genre Aeromonas à condition d'étudier la diversité de ses multiples copies, ii) A. caviae présente des caractéristiques génétiques particulières témoignant d'un processus d'adaptation en cours à une niche écologique que nous supposons être l'intestin humain. Nos résultats supportent également un mode d'évolution des bactéries du genre Aeromonas dit en complexes d'espèces accompagné de phénomènes de spéciation pouvant en partie expliquer les difficultés rencontrées pour établir une taxonomie claire du genre Aeromonas. / Abstract :Studying opportunistic pathogenic bacteria with an environmental origin and a wide variety of lifestyles, either free-living or host-adapted, is useful to improve the understanding of bacterial adaptation to hosts and the emergence of novel pathogens. The genus Aeromonas groups water-living bacteria, mainly in freshwater. They are able to support several types of relations with their hosts (parasitism/ symbiosis) and are harbored by a large spectrum of hosts. In human, they are involved in a wide range of infections (gastroenteritis, bacteraemia, wound and soft tissue infection, etc.) but difficulties in identifying strains and a confused taxonomy results in incomplete knowledge of the real strain pathogenicity of each described species.The aim of this work was to study the mechanisms of genomic and genetic evolution related to the outstanding ability of Aeromonas adaptation to host, including human. We led a comparative analysis of the genetic and genomic diversity on a large strain collection (195 strains) representative of the species of the genus and from various sources (human, animal, environmental). We studied the genetic diversity using a 7 housekeeping gene multilocus strain analysis (dnaK, gltA, gyrB, radA, rpoB, tsf, zipA). We also described the variability in the i) rrs multiple gene copies using a PRC-TTGE method and ii) the number and distribution of the rrn operons within the chromosome using a pulse field gel electrophoresis. Our results also showed the taxonomic value of the study of genetic and genomic diversity using the approaches proposed in the genus Aeromonas.These various approaches enabled us to highlight: i) a high genetic diversity in the housekeeping genes together with horizontal gene transfers events, ii) some clusters that were either host-adapted or adapted to particular anatomical locations, iii) a high number of rrn operons (from 8 to 11), iv) the presence of patterns of rrn operon that were either species-specific or specific to groups of closely related species, v) a high frequency (41,5%) of strains harboring sequence heterogeneities between rrs copies. We showed that: i) 16 rRNA is a valuable marker for studying the modes of evolution of aeromonads and the taxonomy within the genus Aeromonas provided that multiple copy diversity is taken into account, ii) A. caviae displays particular genetic characteristic that suggested an ongoing process of adaptation to a niche that we supposed to be human digestive tract. Our results also support an evolution mode in complex of species with some speciation process that could at least in part explain difficulties for determining a clarified taxonomy within the genus Aeromonas.
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Demography and genetic adaptation: examples from human populationsMendizábal Eceizabarrena, Isabel, 1981- 27 July 2012 (has links)
The human colonization of worldwide landmasses occurred through complex patterns of dispersal and admixture. At the same time, the survival in the different areas of the world depended on the adaptation to new habitats that imposed novel selective challenges. With the advent of high-throughput genotyping technologies and dense catalogues of human genetic variation, the demographic history of many human populations has been unraveled from genomic data, with important implications in medical genetics. However, several human groups are yet to be genetically characterized. These incomplete past histories include the determination of ancestries of the current Cuban population, as well as the origins and dispersal of European Romani, whose demographic history is aimed to be reconstructed in this work. Finally, the present study also aims to describe the genetic basis and evolution of one of the most striking human phenotypes, the African Pygmy height. / La colonización humana de las diferentes masas continentales se produjo mediante complejos patrones de dispersión y mezcla. La supervivencia en las diversas regiones del planeta ha dependido de la adaptación a las presiones selectivas impuestas por los nuevos hábitats. Con el desarrollo de tecnologías de genotipado masivo y las bases de datos de la diversidad genética humana, la historia demográfica de muchas poblaciones humanas, y sus implicaciones médicas, han sido descritas. Sin embargo, algunas poblaciones todavía no han sido caracterizadas genéticamente. Por ejemplo, tanto la descomposición de la ancestría genética de la población cubana actual como los orígenes y la dispersión de los gitanos europeos siguen siendo historias incompletas que se han reconstruido en esta tesis. Finalmente, este estudio también tiene como objetivo describir la evolución y las bases genéticas de uno de los fenotipos humanos más llamativos, la altura de los pigmeos africanos.
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High genomic diversity of multi-drug resistant wastewater Escherichia coliMahfouz, Norhan, Caucci, Serena, Achatz, Eric, Semmler, Torsten, Guenther, Sebastian, Berendonk, Thomas U., Schroeder, Michael 13 December 2018 (has links)
Wastewater treatment plants play an important role in the emergence of antibiotic resistance. They provide a hot spot for exchange of resistance within and between species. Here, we analyse and quantify the genomic diversity of the indicator Escherichia coli in a German wastewater treatment plant and we relate it to isolates’ antibiotic resistance. Our results show a surprisingly large pan-genome, which mirrors how rich an environment a treatment plant is. We link the genomic analysis to a phenotypic resistance screen and pinpoint genomic hot spots, which correlate with a resistance phenotype. Besides well-known resistance genes, this forward genomics approach generates many novel genes, which correlated with resistance and which are partly completely unknown. A surprising overall finding of our analyses is that we do not see any difference in resistance and pan genome size between isolates taken from the inflow of the treatment plant and from the outflow. This means that while treatment plants reduce the amount of bacteria released into the environment, they do not reduce the potential for antibiotic resistance of these bacteria.
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