Global ETD Search

81	Enhancing the inactivation of Escherichia coli O157:H7 by bacteriophage and gaseous ozone to improve postharvest fresh produce safety Yesil, Mustafa January 2017 (has links) No description available. Food Science Bacteriophage Ozone Fresh produce Escherichia coli Produce safety Molecular characterization Whole genome sequencing
82	Prevalence and characterization of avian pathogenic Escherichia coli and Campylobacter in Mississippi broilers Li, Tianmin 25 November 2020 (has links) Avian pathogenic Escherichia. coli (APEC) and Campylobacter are pathogenic threats to poultry and human health, respectively. In this study, the prevalence of these pathogens in Mississippi broilers and their antimicrobial resistance (AMR) properties were investigated, and a multidrug-resistant APEC strain (APEC-O2-MS1170) was further explored by whole-genome sequencing (WGS). The efficacy of in ovo injection of Lactobacillus in reducing the APEC in broilers was evaluated. Results revealed a high prevalence of APEC and Campylobacter in broilers and broiler products. A lot of isolates were resistant to antibiotics of different sorts. Moreover, the in ovo administration of Lactobacillus did not reduce the incidence of APEC. The WGS of APEC-O2-MS1170 revealed its detailed AMR and virulence properties and alerted a potential zoonotic risk. In conclusion, the Lactobacillus did not reduce the incidence of APEC in broilers, and the prevalence and AMR of APEC and Campylobacter are still challenges faced by the poultry industry. Avian pathogenic Escherichia coli Campylobacter multidrug-resistant virulence gene whole-genome sequencing
83	Characterization of Lab and Novel Agrobacterium Species for Development of New Tools for Plant Transformations Marty, DeeMarie 29 October 2014 (has links) No description available. Agriculture Plant Biology Plant Pathology Plant Sciences
84	FUNCTIONAL GENOMICS OF PANTOEA STEWARTII SUBSP. STEWARTII AND PARTIAL GENOME SEQUENCE OF THE MAIZE STOLBUR PHYTOPLASMA SOLANI, TWO INSECT-TRANSMITTED BACTERIAL PATHOGENS OF MAIZE Correa, Valdir Ribeiro, Mr. 17 December 2010 (has links) No description available. Plant Pathology T3SS effector proteins Pantoea stewartii insect vector colonization maize stolbur Illumina genome sequencing.
85	Population Genetic Investigation of the White-Nose Syndrome pathogen, Pseudogymonascus destructans, in North America Forsythe, Adrian January 2020 (has links) Fungal infections of animals have become an increasingly important global issue. White-Nose Syndrome is an ongoing fungal epizootic of North American hibernating bats, caused by epidermal infections of the fungus, Pseudogymnoascus destructans. Infections emerged early in 2006 in New York State and have since spread to 35 US States and seven Canadian Provinces, with rates of mortality exceeding 90% in some bat colonies. As an emerging outbreak in North America, the transmission of P. destructans is assumed to occur in a radial fashion outwards from the point of origin. In addition, the factors that may influence P. destructans transmission have been postulated, but not tested before. Lastly, as reproduction is assumed to be strictly clonal in North America, invasive populations should have low genetic diversity, and may even accumulate deleterious mutations over time. The aim of my PhD research is to test these assumptions regarding the spread, evolution, and adaptation of P. destructans using combination of genotyping methods. My results showed how P. destructans isolates have shifted in terms of phenotypes and physiological capabilities since being introduced. In addition, I describe patterns of connectivity across the landscape, which are more consist with the level of anthropogenic activity than variation in climate. The mutations common to all invasive strains of P. destructans are associated with adaptations that have occurred since being introduced from Europe, some with relevant metabolic functions that fit their pathogenic lifestyle. Together, my results revealed significant phenotypic and genotypic changes during the spread of P. destructans in North America. The factors identified here that influence the phenotypic and genotypic changes should help developing better management strategies against the White-Nose Syndrome pathogen. / Thesis / Doctor of Philosophy (PhD) clonal expansion fungal pathogen adaptation colony size pigmentation pigment diffusion spore germination genome sequencing
86	Individualized treatment and control of bacterial infections Woksepp, Hanna January 2017 (has links) Infectious diseases cause substantial morbidity and mortality, exacerbated by increasing antibiotic resistance. In critically ill patients, recent studies indicate a substantial variability in β-lactam antibiotic levels when standardized dosing is applied. New methods for characterizing nosocomial outbreaks of bacterial infections are needed to limit transmission. The goals of this thesis were to investigate new strategies towards individualized treatment and control of bacterial infections. In Paper I we confirmed high variability in β-lactam antibiotic levels among intensive care unit (ICU) patients from southeastern Sweden, where 45 % failed to reach treatment targets (100 % fT>MIC). Augmented renal clearance and establishing the minimum inhibitory concentration of the bacteria were important for evaluating the risk of not attaining adequate drug levels. In Paper II a rapid ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) method for simultaneous quantification of 11 commonly used antibiotics was developed and tested in clinical samples. Performance goals (CV<15%) were reached. A microbiological method for quantification of β-lactam antibiotics in serum was developed in Paper III. The method could be important for hospitals without access to an LC-MS method. Paper IV and Paper V investigated ligation-mediated qPCR with high resolution melt analysis (LMqPCR HRMA), for transmission investigation of extended spectrum β-lactamase (ESBL)-producing E. coli and other common bacterial pathogens. Results comparable to the reference method (PFGE) could be achieved within one day in a closed system and confirmed a nosocomial outbreak in Kalmar County. In Paper VI whole genome sequencing followed by bioinformatic analysis resolved transmission links within a nosocomial outbreak due to improved discriminatory power compared to LMqPCR HRMA. The high proportion of ICU patients with insufficient β-lactam drug levels emphasizes the need for individualized treatment by therapeutic drug monitoring (TDM). TDM is enabled by a highly sensitive method, such as UPLC-MS/MS, but if unavailable, also by a microbial method. Molecular typing methods used for transmission investigation can detect nosocomial outbreaks. LMqPCR HRMA can be used for screening purposes. For enhanced resolution, whole genome sequencing should be used, but always together with a rigorous epidemiological investigation. therapeutic drug monitoring intensive care unit β-lactam antibiotics antimicrobial drug resistance molecular typing whole-genome sequencing
87	Using 'next-generation' sequencing in the identification of novel causes of inherited heart diseases Hastings, Rob January 2013 (has links) Next-generation sequencing methods now allow rapid and cost-effective sequencing of DNA on a scale not previously possible. This offers great opportunities for the research of Mendelian disorders, but also significant challenges. The sequencing of exomes, or whole genomes, has emerged as a powerful clinical research tool, with targeted gene analyses generally being preferred in the clinical diagnostic setting. These methods have been employed here with the aim of identifying novel genetic causes of inherited heart disorders and to gain insights into the utility and limitations of these techniques for clinical diagnosis in these disorders. Data produced from the introduction of a targeted multi-gene next-generation sequencing test into clinical practice has been studied. Variation within the mitochondrial genome has been analysed to assess the importance of mitochondrial DNA variants in patients with hypertrophic cardiomyopathy. The m.4300A>G mutation is identified as an important cause of this disorder, with other previously cardiomyopathy-associated and novel variants also identified. Such multi-gene tests can facilitate interpretable and phenotype-relevant results, but at the expense of limiting more extensive data acquisition. Whole-genome sequencing has been performed in five families with different autosomal dominant inherited heart disease phenotypes of unknown genetic aetiology. In two of these likely pathogenic variants were identified, one in the gene encoding titin (TTN) and the other in the calcium channel subunit gene CACNA1C. In vitro studies were undertaken to support the pathogenicity of the TTN variant and understand the functional effects of this. In the other three families either multiple candidate gene variants were identified or no clear candidate variant was identified. This highlights the difficulties in interpreting these results, even in carefully selected families. Overall, although the research benefits of exome or genome studies are evident, the interpretation and validation of genetic variant data produced remains highly challenging for clinical diagnosis. 616.12075
88	Recurrent Genetic Mutations in Lymphoid Malignancies Young, Emma January 2017 (has links) In recent years, the genetic landscape of B-cell derived lymphoid malignancies, including chronic lymphocytic leukemia (CLL), has been rapidly unraveled, identifying recurrent genetic mutations with potential clinical impact. Interestingly, ~30% of all CLL patients can be assigned to more homogeneous subsets based on the expression of a similar or “stereotyped” B-cell receptor (BcR). Considering that biased distribution of genetic mutations was recently indicated in specific stereotyped subsets, in paper I, we screened 565 subset cases, preferentially assigned to clinically aggressive subsets, and confirm the SF3B1 mutational bias in subset #2 (45%), but also report on similarly marked enrichment in subset #3 (46%). In contrast, NOTCH1 mutations were predominantly detected in subsets #1, #8, #59 and #99 (22-34%). This data further highlights a subset-biased acquisition of genetic mutations in the pathogenesis of at least certain subsets. Aberrant NF-κB signaling due to a deletion within the NFKBIE gene previously reported in CLL warranted extended investigation in other lymphoid malignancies. Therefore, in paper II, we screened 1460 patients with various lymphoid malignancies for NFKBIE deletions and reported enrichment in classical Hodgkin lymphoma (27%) and primary mediastinal B-cell lymphoma (PMBL) (23%). NFKBIE-deleted PMBL cases had higher rates of chemorefractoriness and inferior overall survival (OS). NFKBIE-deletion status remained an independent prognostic marker in multivariate analysis. EGR2 mutations were recently reported in advanced stage CLL patients; thus, in paper III we screened 2403 CLL patients for mutations in EGR2. An overall mutational frequency of 3.8% was reported and EGR2 mutations were associated with younger age, advanced stage and del(11q). EGR2 mutational status remained an independent marker of poor outcome in multivariate analysis, both in the screening and validation cohorts. Whole-genome sequencing (WGS) of 70 CLL cases, assigned to poor-prognostic subsets #1 and #2 and indolent subset #4, were investigated in Paper IV and revealed a similar skewing of SF3B1 mutations in subset #2 and NOTCH1 mutations in subset #1 to that reported in Paper I. Additionally, an increased frequency of the recently proposed CLL driver gene RPS15 was observed in subset #1. Finally, novel non-coding mutational biases were detected in both subset #1 and #2 that warrant further investigation. Lymphoid malignancies mutations CLL stereotypy subsets PMBL NFKBIE EGR2 whole-genome sequencing Cancer and Oncology Cancer och onkologi Hematology Hematologi
89	Genome analysis of multidrug resistant bacteria from patients with cystic fibrosis / Analyse génomique des bactéries multi-résistantes chez des patients atteints de mucoviscidose Sharma, Poonam 19 December 2013 (has links) La mucoviscidose est une maladie génétique autosomique causée par une mutation dans le gène CFTR (Cystic Fibrosis Transmembrane Conductance Regulator). Mon travail s’est décomposé en deux parties principales : d’une part j’ai réalisé une revue de la littérature sur l’analyse des génomes bactériens isolés de patients mucoviscidosiques comparativement aux génomes des mêmes espèces isolées dans d’autrescontextes et d’autre part j’ai analysé les génomes de trois espèces bactériennes (Microbacterium yannicii, Chryseobacterium oranimense et Haemophilus parahaemolyticus). L’analyse exhaustive des génomes bactériens issus de patients atteints de mucoviscidose a révélé une extraordinaire évolution de ces génomes en fonction du temps et des traitements reçus par ces patients qui témoigne de la capacité qu’ont ces bactéries à s’adapter à leur écosystème notamment par l’acquisition de nouveaux gènes par transfert latéral de gènes. Ce travail montre l’extraordinaire plasticité des génomes bactériens dans un milieu donné et à ce titre le poumon de patients atteints de mucoviscidose représente un modèle unique pour comprendre l’évolution des génomes bactériens. De plus, notre travail a permis d’identifier leurs mécanismes moléculaires de résistance aux antibiotiques. Les travaux à venir sur l’étude des métagénomes de prélèvements chez ces patients pourrait permettre de répondre à ces questions dans le futur. La découverte de nouvelles espèces et / ou émergentes va nous permettre d’avoir une image plus complète de la mucoviscidose qui pourrait conduire à une meilleure connaissance de la maladie et donc à une meilleure prise en charge thérapeutique. / Cystic fibrosis is an autosomal genetic disorder caused by a mutation in the CFTR (Cystic Fibrosis Transmembrane Conductance Regulator) gene. Pulmonary infection is the major problem faced by patients with cystic fibrosis. My work is divided into two main parts: first I made a review of the literature on the analysis of bacterial genomes isolated from CF patients compared to the genomes of the same species isolated in autrescontextes and other part I analyzed the genomes of three species of bacteria (Microbacterium yannicii, Chryseobacterium oranimense and Haemophilus parahaemolyticus). The comprehensive analysis of bacterial genomes from cystic fibrosis patients revealed an extraordinary evolution of these genomes with time and treatment received by these patients reflects the ability of these bacteria to adapt to their particular ecosystem the acquisition of new genes by lateral gene transfer. This work shows the extraordinary plasticity of bacterial genomes in a given environment and as the lungs of patients with cystic fibrosis represents a unique model for understanding the evolution of bacterial genomes. In addition, our work has identified their molecular mechanisms of resistance to antibiotics. Future work on the study of metagenomes sampling in these patients could help to answer these questions in the future. The discovery of new species and / or emerging will allow us to have a more complete picture of cystic fibrosis which could lead to a better understanding of the disease and thus a better therapeutic management.
90	Sequenciamento, anotação e análise do genoma completo de Mycobacterium bovis cepa SP38 / Sequencing, annotation and genomic analysis of Mycobacterium bovis strain SP38 Zimpel, Cristina Kraemer 10 May 2017 (has links) A tuberculose é uma doença infectocontagiosa causada por bactérias do complexo Mycobacterium tuberculosis (MTBC) que afeta humanos e/ou animais. Membros desse complexo evoluíram clonalmente e possuem grande similaridade genômica, diferenciando-se por polimorfismos de nucleotídeo único (SNPs) e regiões de diferença (RDs). Dentre os patógenos da tuberculose em animais, Mycobacterium bovis, causador da tuberculose bovina, é o membro do MTBC de maior importância global. Desta maneira, o presente estudo tem por objetivo o sequenciamento, a anotação e a análise da estirpe brasileira SP38 de M. bovis, seguido da genômica comparativa desse com outros genomas de M. bovis depositados no GenBank. Mycobacterium bovis SP38 apresenta um genoma tradicional de micobactéria tuberculosa, sendo esse único, circular com 4.347.646 pb, alto conteúdo de GC (65,6%) e 4.216 genes, incluindo 154 pseudogenes, 3 genes de rRNA (RNA ribossomal), 45 de tRNA (RNA transportador), 2 de ncRNA (RNA não codificante), 1 tmRNA (RNA transferência-mensageiro) e 4.011 sequências de DNA codificante (CDSs) (NZ_CP015773.1). Dentre as CDSs, a maioria (2.805 - 69,93%) foi anotado com função e 1.206 (30,07%) como hipotéticos. Para a genômica comparativa, os 31 genomas completos ou em drafts de M. bovis depositados no GenBank, 32 genomas de Mycobacterium bovis BCG e 23 genomas de Mycobacterium tuberculosis foram selecionados. Análises in silico dos padrões de RD resultaram na exclusão de três genomas anotados equivocadamente como M. bovis virulentos. A análise de genes ortólogos sugere que M. bovis está sob processo de decay genômico. A quantificação de sítios polimórficos indica uma maior variabilidade genética em números totais (8.335 em M. tuberculosis, 3.448 em M. bovis virulentos, e 1.088 em M. bovis BCGs) e comparações par-a-par (p ≤0,05) de M. tuberculosis em relação a M. bovis virulentos e BCGs, indicando uma maior pressão evolutiva sob M. tuberculosis, contrastando com o fato de que M. bovis é capaz de infectar um maior número de espécies hospedeiras que M. tuberculosis. A maioria desses sítios polimórficos estão localizados em CDSs hipotéticos (31,7% - 51,3%), sendo associados a família gênica PE/PPE, e apresentam uma proporção de mutações não sinônimas crescentes pela ordem M. bovis BCG, M. bovis virulentos e M. tuberculosis (48,90%, 51,92% e 59,52%, respectivamente). Essa menor proporção de mutações não sinônimas e a categorização funcional dissimilar entre CDSs contendo sítios polimórficos, indica que M. bovis BCG está sujeito a diferentes pressões seletivas quando comparado a M. bovis virulentos e M. tuberculosis. Por fim, a análise filogenética baseada em sítios polimórficos indica agrupamentos filogenéticos de M. bovis suportados pela classificação dos Complexos Clonais (CCs) e não por hospedeiros de origem dos isolados, confirmando que sítios polimórficos podem ser utilizados para classificação filogenética de linhagens genéticas desta espécie bacteriana. Além do mais, 2/28 (7,14%) genomas de M. bovis não puderam ser classificados nos CCs atualmente descritos, sugerindo a existência de complexos ainda não determinados. Este estudo representa o primeiro genoma de uma estirpe nacional de M. bovis a ser completamente sequenciado e a primeira análise de genômica comparativa de genomas desta espécie bacteriana. / Tuberculosis is an infectious disease caused by bacteria of the Mycobacterium tuberculosisComplex (MTBC) that affects human beings and/or animals. Members of this complex clonally evolved and have high genomic similarity, differentiated by single nucleotide polymorphisms (SNPs) and regions of difference (RDs). Among the animal tuberculosis pathogens, Mycobacterium bovis, the causative agent of bovine tuberculosis, is the MTBC member of greatest global importance. Therefore, the aim of the present study is to sequence, assemble and annotate the genome of the Brazilian strain SP38 of M. bovis, followed by the comparative genomics with other M. bovis genomes available in GenBank. Mycobacterium bovis SP38 has a traditional mycobacteria genome. It has a single and circular chromosome with 4,347,646 bp, high GC content (65.6%), and 4,216 genes, including 154 pseudogenes, 3 rRNA genes (ribosomal RNA), 45 tRNA (transfer RNA), 2 ncRNA (non-coding RNA), 1 tmRNA (transfer-messenger RNA), and 4,011 coding DNA sequences (CDSs) (NZ_CP015773.1). The majority of CDSs (2,805 - 69,93%) was annotated with function and 1,206 (30,07%) are hypothetical. For the comparative genomics analyses, the 31 genomes (complete and drafts) of M. bovis available in GenBank, 32 Mycobacterium bovis BCG and, 23 of Mycobacterium tuberculosis were chosen. In silico analysis of the RDs patterns resulted in the exclusion of three genomes, mistakenly annotated as virulent M. bovis. Orthologous gene analysis suggests that strains of M. bovis are under genomic decay. The quantification of polymorphic sites indicates the greater variability in absolute numbers (8,335 in M. tuberculosis, 3,448 in virulent M. bovis, and 1,088 in M. bovis BCG) and in pairwise comparisons (p≤0,05) of M. tuberculosis compared to virulent M. bovis and M. bovis BCG, suggesting that M. tuberculosis is under high evolutionary pressure. This is in contrast to the fact that M. bovis is capable of infecting a higher number of host species than M. tuberculosis. Most of these polymorphic sites are located in hypothetical CDSs (31.7% - 52.3%), being associated with PE/PPE family, and demonstrating a nonsynonymous mutations proportion of the following increasing order: M. bovis BCG, virulent M. bovis and M. tuberculosis (48.90%, 51.92% and 59.52%, respectively). This lower proportion of nonsynonymous mutations and the dissimilar functional categorization of CDSs with polymorphic sites indicates that M. bovis BCG is subjected to different selective pressure when compared to virulent M. bovis and M. tuberculosis. Finally, the phylogenetic analysis based on polymorphic sites indicates that the phylogenetic grouping of M. bovis is supported by Clonal Complexes (CCs), and not by the host of M. bovis isolates, confirming that polymorphic sites can be used for phylogenetic classification of genetic lineages of this bacterial species. Furthermore, 2/28 (7.14%) genomes of M. bovis could not be classified in the currently described CCs, suggesting the existence of complexes yet to be determined. This study represents the first genome of a Brazilian strain of M. bovis to be completely sequenced and the first comparative genomic analysis of the genomes of this bacterial species. Mycobacterium bovis Mycobacterium bovis Mycobacterium tuberculosis Complex Comparative genomic Complexo Mycobacterium tuberculosis Genome sequencing Genômica comparativa Sequenciamento de genoma

Search results