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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
61

The Impact of Horizontal Gene Transfer on the Evolution of New Functions in Salmonella enterica

Nazmi Muhamer, Nevin January 2021 (has links)
No description available.
62

Biofilm Characterization and the Potential Role of eDNA in Horizontal Gene Transfer in Hospital and Meat Isolates of Staphylococcus aureus and Their Biofilms

Ball, Ashley Lynne 13 December 2022 (has links)
Staphylococcus aureus is a pathogen responsible for a wide variety of life-threatening diseases such as bacteremia, endocarditis, and pneumoniae. S. aureus has been a major concern in recent years due to the rampant spread of antibiotic resistance. The ability of S. aureus to form biofilms aids in the spread of antibiotic resistance as biofilms are a known hotspot for horizontal gene transfer. Biofilms also protect cells from host immune responses and antibiotics, making these infections very difficult to treat. The matrix of S. aureus biofilms can be made of polysaccharides, protein, and DNA. In these studies, we sought to elucidate how biofilm composition correlates with source of isolation in S. aureus strains, the role of biofilm-related genes in biofilm composition, and the potential role of biofilm eDNA in horizontal gene transfer. The composition and strength of biofilms made by a variety of hospital and meat-associated strains of S. aureus was measured using crystal violet (CV) staining and DNase or proteinase K treatment. Biofilm polysaccharide concentration was also measured using the phenol sulfuric-acid assay. We found that biofilms of hospital-associated isolates tend to have more protein and polysaccharides while those of meat isolates contain significantly more DNA. We also investigated the effects that biofilm-related genes have on biofilm formation and composition by analyzing specific transposon mutants of genes suggested by previous studies to play a role in biofilm development. Transposon insertions in agrA, atl, clfA, fnbA, purH, and sarA significantly weakened biofilms as compared to a wild-type control, whereas the acnA insertion mutant produced a significantly stronger biofilm. Biofilms formed from these mutant strains were treated (or mock-treated) with DNase or proteinase K and tested with phenol and sulfuric acid to determine what role these genes play in biofilm composition. We found that the atl and sarA insertion mutants produced biofilms with greater polysaccharide concentrations than the wild-type. Since many of the isolates produced biofilms composed of DNA, we investigated the potential role of this extracellular DNA in horizontal gene transfer. Strains with complementary antibiotic resistances and susceptibilities were paired together and co-cultured together in a biofilm and plated onto double antibiotic plates to select for possible gene transfer. Putative gene transfer was found to be largely biofilm dependent and enhanced with the addition of subinhibitory concentrations of antibiotics added to the biofilm. Potential transformation was also shown to naturally occur in many strains when naked DNA was added to a single strain biofilm and was also aided with the addition of subinhibitory antibiotics.
63

Markov Model of Segmentation and Clustering: Applications in Deciphering Genomes and Metagenomes

Pandey, Ravi Shanker 08 1900 (has links)
Rapidly accumulating genomic data as a result of high-throughput sequencing has necessitated development of efficient computational methods to decode the biological information underlying these data. DNA composition varies across structurally or functionally different regions of a genome as well as those of distinct evolutionary origins. We adapted an integrative framework that combines a top-down, recursive segmentation algorithm with a bottom-up, agglomerative clustering algorithm to decipher compositionally distinct regions in genomes. The recursive segmentation procedure entails fragmenting a genome into compositionally distinct segments within a statistical hypothesis testing framework. This is followed by an agglomerative clustering procedure to group compositionally similar segments within the same framework. One of our main objectives was to decipher distinctive evolutionary patterns in sex chromosomes via unraveling the underlying compositional heterogeneity. Application of this approach to the human X-chromosome provided novel insights into the stratification of the X chromosome as a consequence of punctuated recombination suppressions between the X and Y from the distal long arm to the distal short arm. Novel "evolutionary strata" were identified particularly in the X conserved region (XCR) that is not amenable to the X-Y comparative analysis due to massive loss of the Y gametologs following recombination cessation. Our compositional based approach could circumvent the limitations of the current methods that depend on X-Y (or Z-W for ZW sex determination system) comparisons by deciphering the stratification even if only the sequence of sex chromosome in the homogametic sex (i.e. X or Z chromosome) is available. These studies were extended to the plant sex chromosomes which are known to have a number of evolutionary strata that formed at the initial stage of their evolution, presenting an opportunity to examine the onset of stratum formation on the sex chromosomes. Further applications included detection of horizontally acquired DNAs in extremophilic eukaryote, Galdieria sulphuraria, which encode variety of potentially adaptive functions, and in the taxonomic profiling of metagenomic sequences. Finally, we discussed how the Markovian segmentation and clustering method can be made more sensitive and robust for further applications in biological and biomedical sciences in future.
64

Nitrogen Metabolism of the Haloarchaeon Haloferax volcanii

Sabag-Daigle, Anice 16 September 2009 (has links)
No description available.
65

ISAAC: AN IMPROVED STRUCTURAL ANNOTATION OF ATTC AND AN INITIAL APPLICATION THEREOF

Szamosi, Judith C. 10 1900 (has links)
<p>We introduce new software (ISAAC: Improved Structural Annotation of attC) to annotate cassette arrays in bacterial integrons by finding attI and attC sites, and to provide detailed annotation of the attC sites for analysis. We demonstrate an initial application of ISAAC by annotating the cassette complements of all the integrons we identified in the RefSeq bacterial genome database, and providing an analysis of the patterns of nucleotide frequencies at the structurally important positions in the attCs we’ve found.</p> / Master of Science (MSc)
66

The Processing of Replication Initiation Protein PrgW in Enterococcus faecalis is Necessary for Activity and Stable Maintenance of pCF10

Massie-Schuh, Ella January 2013 (has links)
Enterococcus faecalis are Gram-positive bacteria that colonize the gastrointestinal tracts of mammals, birds and invertebrates and are also found in sewage, soil, food and water. In addition to being commensal organisms, Enterococci can also cause nosocomial infections in humans including urinary tract infections, septicemia and endocarditis. Hospital-acquired infections often present a challenge in treatment due to the emergence of multi-drug resistant strains. Enterococcal plasmids may act as extremely stable reservoirs for resistance genes and other virulence factors. Pheromone responsive plasmids such as pCF10 mediate efficient transfer of genetic material within the species E. faecalis but may also be capable of transferring resistance genes across species and genus boundaries. Polymicrobial environments often found in nosocomial infections may expose plasmid-harboring enterococci to pathogenic species, poising cells for this type of promiscuous horizontal gene transfer of resistance determinants. Previous studies showed that prgW, which encodes the pCF10 replication initiation protein PrgW, is the minimal origin of replication for this plasmid. The replicon, which is usually limited to Enterococcal spp., can replicate in Lactococcus lactis if it is engineered to produce pre-cCF10. Three conserved cysteines (C78/C275/C307) are important for plasmid stability and allow for replication of the pCF10 replicon in L. lactis in the absence of pre-cCF10. PrgW has a predicted molecular weight of 38,635. Four polyclonal antibodies targeting PrgW at the N-terminus (aa 1-20), C-terminus (aa 314-333) and two internal regions (aa 64-80 and aa 250-271) were used in current experiments and retrospective studies. When PrgW was overexpressed in E. faecalis, four different apparent approximate molecular weights were detected by Western blotting (p40*, p36*, p24* and p18*), suggestive of processing. In Enterococci where the replicon is active, p36* was consistently detected by all four antisera; when PrgW was overexpressed in Streptococcus mutans where the replicon is non-functional, p49* and p40* were detected but p36* was not observed. PrgW p24* was detected by a mixture of the internally targeting antibodies as well as the C-terminal targeting antibody, but not the N-terminal targeting antibody, suggesting that the N-terminal domain of PrgW has been cleaved off in p24*. The p24* form may play a role in pCF10 stability. Mutations to three cysteines in PrgW (C78/C275/C307), which reduce the stability of pCF10, result in the loss of p24*. Enterococcal conjugative plasmids have been previously implicated in the transfer of antibiotic resistance genes. The pCF10 plasmid contains the conjugative transposon Tn925, which possesses the tetM tetracycline resistance gene. Proximity of donor and recipient cells is a key part of pheromone-responsive conjugation. Aggregation substance allows for formation of clumps of E. faecalis in liquid mating experiments. E. faecalis forms biofilms; in contrast to filter mating experiments, polymicrobial biofilms provide an in vitro model of a natural scenario during which horizontal gene transfer may occur. Rates of cross-genus genetic transfer of tetM between E. faecalis OG1RF(pCF10) donor cells and Staphylococcus aureus recipient cells growing on glass coverslips as mixed-species biofilm populations were determined to be 10-8 after pheromone induction of pCF10 conjugation. This biofilm transfer model also holds potential to test the efficacy of synthetic peptides in the reduction or even prevention of pCF10 transfer, and the consequential dissemination of antibiotic resistance determinants throughout the genus Enterococcus and beyond. / Microbiology and Immunology
67

Pátrání po pozůstatku plastidu v buňce Rhabdomonas sp. / Search for the remnant of plastid in the cell of Rhabdomonas sp.

Soukal, Petr January 2013 (has links)
Phylum Euglenozoa contsists of four groups - Euglenoidea, Kinetoplastea, Symbiontida and Diplonemea. Phototrophic euglenids, which constitute a clade, possess green plastid acquired via secondary endosymbiosis from green alga related to recent genus Pyramimonas. According to generally accepted plastid-late hypothesis, the endo- symbiosis took place after split between phototrophic euglenids and all other euglenozo- ans. Endosymbiotic event is always associated with gene transfer from endosymbiont to nuclei of host. Even if the endosymbiont is completely lost we should be able to observe enrichment of the host genome with the genes derived from endosymbiont. Some recent phylogenetic analyses uncovered genes related to green algae in trypanosomas (Kineto- plastea: Trypanosomatida). Based on this observation, authors postulated a hypothesis that the plastid was present already in common ancestor of kinetoplastids and euglenids and was lost in kinetoplastids and some euglenids including osmotrophic Rhabdomonas costata. During analysis of transcriptome of R. costata we found 63 genes, which could originated from green (24 genes) or other (49 genes) algae. In phylogenetic trees only one was robustly related to green and four were robustly related to other algae. Since the number of genes related to...
68

O papel de transferência horizontal de genes na história evolutiva de duas classes de genes em bactérias / The role of horizontal gene transfer in the evolutionary history of two bacterial gene classes

Rangel, Luiz Thibério Lira Diniz 10 August 2017 (has links)
A Transferência Horizontal de Genes (THG) é um dos principais mecanismos de evolução bacterianos, impactando a evolução de praticamente todas famílias gênicas. Neste trabalho identificamos e avaliamos padrões de possíveis transferências horizontais de genes pertencentes a duas classes funcionais de dois níveis taxonômicos distintos. Caracterizamos a ocorrência e evolução de 45 genes importantes para a fixação de N2 em 479 genomas de Proteobacteria. Identificamos cinco potenciais aquisições de genes ligados a fixação de N2 por linhagens de Proteobacteria, as quais foram identificadas consistentemente em 36 dos genes analisados. Realizamos predições de transferências horizontais dos 45 entre todos os 479 genomas de Proteobacteria e identificamos possíveis enriquecimentos de THG, provavelmente ligados à sinais filogenéticos e ecológicos. Desenvolvemos um pipeline para identificação semi-automática de efetores do Sistema Secretor do Tipo III em Aeromonas, o qual reportou 21 famílias de potenciais efetores presentes em 105 genomas. Entre os 21 efetores identificados 17 foram descritos pela 1º vez em Aeromonas, corroborando a sensibilidade de nosso pipeline. Com o auxílio de nossos colaboradores foram realizados testes de citotoxidade para efetores identificados in silico, e apenas quatro não inibiram o crescimento de Saccharomyces cerevisiae. Por fim, desenvolvemos um método para agrupamento de famílias gênicas com histórias evolutivas similares que não requer a reconstrução de árvores filogenéticas, aumentando a eficiência computacional. Aplicamos o método desenvolvido para reconstrução da filogenia de Aeromonas, o qual mostrou-se compatível com dados presentes na literatura. / Horizontal Gene Transfer (HGT) is one of main mechanisms of bacterial evolution, affecting virtually all gene families. In this document we identified and assessed putative horizontal transfers of genes from two functional classes from two distinct taxonomic levels. We characterized the distribution and evolution of 45 genes important to N2 fixation among 479 Proteobacteria genomes. We identified five potential distinct acquisitions of such genes by Proteobacteria lineages. The distinct origins are consistently identified in 36 out of the 45 assessed genes. We computed possible horizontal transfers of the 45 genes among the 479 Proteobacteria genomes, and we identified enrichments of HGT, likely related to phylogenetic and ecological signals. We developed a semi-automated pipeline to identify effectors of the Type III Secretion System within Aeromonas, which reported 21 putative effector families distributed among 105 genomes. Among the 21 likely effectors 17 have been described in Aeromonas for the first time, highlighting the sensibility of our pipeline. Our colaborators performed cytotoxicity tests for the 21 likely effector families identified by in silico analysis, and only four did not inhibited Saccharomyces cerevisiae growth. Lastly, we developed a method to cluster gene families according to shared evolutionary history, without the requirement of phylogenetic tree reconstruction, increasing computational efficiency. We applied this proposed method during Aeromonas phylogenetic reconstruction, and it showed up compatible with data available on the literature.
69

The Diversity Found Among Carbapenem-Resistant Bacteria

Card, Galen Edward 01 July 2018 (has links)
This work will look at two factors that add to the diversity of carbapenem resistant bacteria. First, it focuses on the diversity of carbapenemase resistance plasmids. 446 plasmids were characterized by size, gene content and replicon groups. We identified that on average, over 30% of the encoded proteins on each plasmid have an unknown function. Plasmid sizes ranged from 1.6kb to 500kb, with an average of around 100kb and median of 80kb. Additionally, six replicon groups account for 80% of all the carbapenemase resistance plasmids. We also highlight the lack of data available for carbapenemase carrying plasmids from bacterial genera other than Escherichia and Klebsiella, and plasmids that carry the New Delhi metallo-β- lactamase or the Verona-integron encoded metallo-β-lactamase. Second, we characterized the β-lactamase diversity of a single carbapenemase resistant Klebsiella pneumoniae. This isolate encodes six distinct β-lactamases, all of which are functional, and three of which are redundant. Additionally, we determined that the CTX-M-15 cephalosporinase imparts a greater fitness when grown in aztreonam (a monobactam) than ceftazidime (a cephalosporin). Finally, we show that individually, these β-lactamases do not account for the elevated levels of resistance seen in the parent strain, indicating that the passive resistance mechanisms (i.e. efflux pumps, altered membrane porins) may play a larger role than originally thought.
70

Lifestyle and Genome Evolution in Vector-Borne Bacteria : A Comparison of Three Bartonella Species / Livsstil och genomevolution i vektorburna bakterier : en jämförelse av tre Bartonella-arter

Frank, Anna Carolin January 2005 (has links)
Bacterial genomes provide records of the molecular processes associated with emergence and evolution of different bacterial lifestyles. This thesis is based on whole-genome comparisons within the genus Bartonella, an excellent model system for studies of host- and vector-specificity and infection outcome in animal-associated bacteria. The louse-borne human specialist and trench fever agent Bartonella quintana was contrasted to the flea-borne generalist relatives Bartonella henselae and Bartonella grahamii, which cause asymptomatic infection in cat and mouse respectively. While B. henselae is commonly isolated from humans, and causes cat scratch disease, there is only one reported case of B. grahamii human infection. The gene complements of the three species are nested like Russian dolls with the smaller genome (B. quintana) being entirely contained in the medium sized (B. henselae), which in turned is contained in the largest (B. grahamii). Size differences reflect differences in the horizontally and vertically acquired gene content, and in the number of genus- and species- specific genes, owing to differential impact of bacteriophages and plasmids, and to different degrees of genome decay. These processes can be attributed to the three distinct lifestyles. Comparisons with other alpha-proteobacteria suggest that the Bartonella genus as a whole evolved from plant-associated species, and that horizontal transfer, in particular of genes involved in interaction with the host, played a key role in the transition to animal intracellular lifestyle. The long-term genome decay associated with this lifestyle is most advanced in the host-restricted B. quintana. The broad host-range species B. grahamii has the largest genome and the largest proportion of auxiliary DNA of the three, probably because it has access to a larger gene pool. In encodes all the known pathogenicity determinants found in the genomes of B. henselae and B. quintana, suggesting that these genes primarily evolved to facilitate colonization in the reservoir host.

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