Global ETD Search

41	Transcriptome Characterization and Polymorphism Detection in Subspecies of Big Sagebrush (<em>Artemisia tridentata</em>) Bajgain, Prabin 22 June 2011 (has links) (PDF) Big sagebrush (Artemisia tridentata) is one of the ecologically most important shrub species in western North America. The species serves as a major source of food and habitat for the near-threatened sage grouse and various other fauna. Habitat loss due to a combination of disturbances followed by establishment of invasive plant species is considered as a serious threat to sustainability of the big sagebrush ecosystem. Because of its importance, restoration of this species is very crucial to those dependent on big sagebrush community. However, restoration of big sagebrush carried out by using diverse seed source can lead to imbalance and degradation in the native ecosystem. Therefore, restoration works aided by understanding of adaptive traits of big sagebrush using molecular markers will aid successful restoration. The major objective of this research was to create a substantial resource of nuclear sequence data and identify markers that can be used in future studies in big sagebrush. We report the development and annotation of the first expressed sequence tag (EST) collection for big sagebrush based on 454 sequencing of leaf tissue. Expressed genes of subspecies tridentata and vaseyana were sequenced using the 454 GS-FLX titanium platform, which produced 823,392 reads with an average read length of 404 bp and 702,001 reads with an average read length of 333 bp for sspp. tridentata and vaseyana, respectively. Assembly of the reads resulted in 212,102 consensus sequences in ssp. tridentata and 199,439 in ssp. vaseyana. A combined assembly of both subspecies sequences generated 29,541 contigs with an average length of 796 bp and 275,866 singletons with an average length of 370 bp. A BLASTx search against the non-redundant (NR) protein database using the contigs obtained from a combined assembly resulted in 21,436 sequences with significant blast alignments (≤ 1e-15). Gene Ontology (GO) IDs were assigned to 18,397 sequences. A total of 20,952 SNPs were detected between the two subspecies and 1,182 SNPs were confirmed in tetraploid ssp. wyomingensis. In addition, 1,003 and 507 SSRs were detected in ssp. tridentata contigs and ssp. vaseyana contigs, respectively. Artemisia tridentata EST assembly 454 sequencing SNPs SSRs Ka Ks Animal Sciences
42	Hypersaline Lake Environments Exhibit Reduced Microbial Dormancy Vert, Joshua Christopher 07 June 2013 (has links) (PDF) From acid seeps and deep-sea thermal vents to glacial ice and hypersaline lakes, extreme environments contain relatively simplified communities consisting of extremophiles that have evolved to survive and thrive under adverse abiotic conditions. In more neutral environments, microorganisms use dormancy as a common life history strategy to weather temporal fluctuations of resources or stresses until more 'optimal' conditions are present. It is unclear if dormancy is an essential survival mechanism for microorganisms in extreme environments; however, recent studies suggest that extreme environments may create stable conditions for extremophiles to the extent that dormancy is of less ecological importance. Using lake salinity levels as measurements of "extreme," we evaluated the dormancy of bacterial and archaeal phyla and lake chemistry in five hypersaline and five freshwater lakes across the western United States. Dormancy was calculated using targeted metagenomics to analyze 16S rDNA and rRNA tag sequences. It was hypothesized that bacteria and archaea in hypersaline lake communities would exhibit lower levels dormancy than bacterial and archaeal communities in geologically similar freshwater lake controls. It was also hypothesized that microbial dormancy would decrease as the dominant extreme environmental variable increased in the lakes. As hypothesized, overall dormancy decreased at least 2-fold in hypersaline compared to freshwater lakes for both bacteria and archaea. Of the predominant phyla and subclasses, Firmicutes, Bacteroidetes, and Gammaproteobacteria each demonstrated at least a seven-fold decrease in dormancy in hypersaline lakes compared to freshwater lakes. Specifically, species within the genus Clostridium were responsible for 85% of the dormancy observed in the phylum Firmicutes. Also as hypothesized, microbial dormancy decreased as salinity increased in the lakes. Lower dormancy in hypersaline lakes correlated with increasing salinity while lower dormancy in freshwater lakes correlated with increasing total phosphorus levels. These results suggest that dormancy is a less common life history strategy for microorganisms in extreme environments; it is proposed that this is due to the relatively stable environment in hypersaline lakes and the reduced number of available microbial niches. These results also suggest that the dominant extreme stress (i.e., salinity) may override other driving factors in an environment to ultimately determine microbial community composition, diversity and richness. niche differentiation archaea bacteria 454 pyrosequencing 16S targeted metagenomics phosphorus extremophiles Microbiology
43	Resource Legacies and Priming Regulate Microbial Communities in Antarctica's Dry Valleys Saurey, Sabrina Deni 07 June 2013 (has links) (PDF) Multiple mechanisms control bacterial community structure but two in particular, the "legacy" of past environmental conditions, and the "priming" of bacteria to respond to seasonal or reoccurring fluctuations in resources, have the potential to determine both bacterial communities, as well as, temporal shifts in active bacterial taxa. To begin to evaluate the legacy effects of resources on microbial communities, we added four limiting resources annually (i.e., water only; C-mannitol + water; N-NH4NO3 + water; and C, N + water) and measured shifts in bacterial community composition after seven years in a cold desert ecosystem in the McMurdo Dry Valleys, Antarctica. Further, to investigate the ecological significance of priming, we conducted a series of stable isotope probing experiments (i.e., 18O-DNA SIP with 18O-labeled water, 13C-DNA SIP with 13C-labeled mannitol, 15N-DNA with 15N- NH4NO3, and a combined C and N SIP) and characterized the responding (i.e., isotopically labeled) and seed bank (i.e., unlabeled) bacterial communities. We performed each of the SIPs in soil microcosms corresponding to a single resource manipulation (e.g., 13C-labeled mannitol in C addition soils). We hypothesized that all long-term additions of nutrients and water will lead to a distinct bacterial community—a legacy effect due to the nutrient and water impoverished state of Antarctica soils. We also hypothesized that the stronger the legacy effects demonstrated by a specific community the more adapted or primed bacterial species will be to take advantage of the resource and respond. As hypothesized, resource additions created distinct bacterial legacy but to different degrees among the treatments. The extent of the resource legacy effects was greatest in the CN, intermediate in water and N, and lowest in C communities relative to the control communities, suggesting that C induced changes in communities were intensified by tandem N additions and that water alone created a more distinct legacy than water and C additions combined. Contrary to our hypothesis, the stronger the legacy effects, the less adapted or primed the community was to take advantage of resource additions. For example, the CN treatment that induced the greatest effect on bacterial communities had the lowest number of species (20.9%) in common between the responding and seed bank communities. This inverse relationship may be due to only two species (i.e., Arthrobacter, Actinobacteria and Massilia, Betaproteobacteria) really being primed to take advantage of CN and these species constituting over 75% of the seed bank community. Water, N, and C additions had similar levels of priming with 38.4%, 41.4%, and 36.3% of the responding species being present in the seed bank community, respectively. But of these three treatments, only the priming with water resulted in a unique responding community, suggesting that water, a universal bacterial resource, was enough to prime bacteria. Furthermore, water generates the most diverse responding community of all the resources with stemming from all of the fourteen dominant phyla. We did find patterns of ecological coherence among the responders, especially in the major responders (i.e., responders that increased in relative recovery by at least ten-fold). These responders were predominantly found in only three phyla (i.e., Actinobacteria, Bacteriodetes, and Gammaproteobacteria) regardless of resource addition. Alternatively minor responders (i.e., responders that increased in relative recovery at least two-fold) were contained in fourteen different phyla with specific taxa stimulated by CN (i.e., Betaproteobacteria) and N and water (i.e., Deltaproteobacteria). Further, resource additions elicited responses from 37% of bacterial species with species specializing on a specific resource (e.g., Chloroflexi) or being a generalist (e.g., Planctomycetes and Gammaproteobacteria). Our results offer the first direct links between legacy and priming effects on bacterial community composition and demonstrate that these mechanisms are not always complimentary leading to the formation of similar communities but may both be essential to maintain the high levels of bacterial diversity. Further, all resources produced elicited responders that were either specialists of generalists demonstrating that even bacteria in the extreme environment of Antarctica respond to pulses of resources. Antarctica soil ecology bacteria microbial ecology soil stable isotope probing target metagenomics 454 pyrosequencing Animal Sciences
44	Physiologie digestive de l'aulacode (Thryonomys swinderianus) en croissance et impact des teneurs en fibres et céréales de la ration sur la santé et les performances zootechniques / Digestive physiology of the growing cane rat (Thryonomys swinderianus) and impact of fibre and cereal content of the diet on health and zootechnical performance Yapi, Yapo Magloire 14 March 2013 (has links) L’aulacode (Thryonomys swinderianus) est un rongeur herbivore récemment domestiqué en Afrique pour la production de viande. Quelques études antérieures ont portés sur l’alimentation de cet animal, dans le but d’améliorer la productivité des élevages. A ce jour, nos connaissances sur la digestion et les besoins nutritionnels de cet animal sont encore très parcellaires. Le premier objectif de notre étude était d’améliorer nos connaissances sur la physiologie digestive de l’aulacode en croissance, en particulier en relation avec les apports de fibres alimentaires, avec pour finalité de proposer des recommandations nutritionnelles en fibres pour optimiser la croissance et la santé digestive de cet animal. Notre second objectif était d’analyser les effets d’une diminution du ratio protéines digestibles / énergie digestible parallèlement à une hausse des apports d’amidon, sur la digestion et les performances. La finalité était d’analyser les possibilités de formuler un aliment complet moins onéreux pour les éleveurs et qui respecte les besoins de l’aulacode en croissance. Notre étude a permis de savoir que le caecum est le compartiment digestif le plus important du jeune aulacode entre 1 et 3 mois d’âge, avec plus de 40% du contenu digestif total. L’activité microbienne caecale (100 mM d’acides gras volatils totaux (AGVt) par gramme de contenu frais) est élevée, et similaire à celle des ruminants ou d’autres herbivores monogastriques. Le profil fermentaire est caractérisé par une prédominance de l’acétate (75 % des AGVt) et un ratio propionate / butyrate supérieur à 1. Le pyroséquençage 454 de l’ADN16S bactérien a permis de caractériser le microbiote caecal. Au sevrage, nous observons une prédominance du phylum des Bacteroidetes, avec 51 % d’abondance relative, alors que le phylum des Firmicutes devient majoritaire (50%) à 3 mois d’âge. Le microbiote caecal est caractérisé par la présence de genres souvent identifiés dans d’autres écosystèmes digestifs d’herbivores, tels que : RC9 (2 à 8%), Parabacteroides (1 à 8%), Prevotella (3 à 6%) et Xylanibacter (1%), Erysipelotrichaceae Turicibacter (1 à 7%), Lachnospiraceae Incertae_Sedis (4 à 5%), Ruminococcaceae Incertae_Sedis (1 à 2%) et Ruminococcus (1 à 3%). D’autres genres, absents chez des espèces voisines comme le lapin et le cobaye, semblent plus spécifiques de l’aulacode, tels que Termite_Treponema_cluster (1.7 à 2.2%) et Treponema (7 à 13%), du phylum des Spirochaetes. L’analyse des performances zootechniques indique qu’un taux de fibres compris entre 17 et 21 % d’ADF représenterait un bon compromis entre santé digestive et croissance de l’aulacode après son sevrage. Descendre au dessous de 6 g de protéines digestibles par MJ d’énergie digestible, via une hausse importante des apports d’amidon et une baisse importante du taux de protéines brutes (en dessous de 11 %) et de fibres, est préjudiciable à la croissance des animaux. / The cane rat or grasscutter (Thryonomys swinderianus) is a rodent herbivore recently domesticated in Africa for meat production. Some previous studies focused on the feeding of this animal, in order to improve the productivity of farms. To date, our knowledge of digestion and nutritional requirements of this animal are still very scarce. Our first objective was to improve our knowledge of digestive physiology of the young grasscutter, particularly in relation to dietary fibre supply, in order to improve the recommendations for dietary fibre content of diets to optimize growth and digestive health. Our second objective was to analyze the effects of a decreased digestible protein / digestible energy ratio, along with an increased intake of starch, on digestion and performances. The final aim was to analyze the possibilities to formulate a complete feed, cheaper for farmers and that meets the requirements of the young grasscutter. Our study found that the caecum is the most important digestive compartment of the young grasscutter between 1 and 3 months of age, with more than 40% of the total gut contents. The caecal microbial activity (100 mM of total volatile fatty acids (VFA) per gram of fresh content) is high and similar to that of ruminants or other herbivorous monogastric animals. The fermentation profile is characterized by a predominance of acetate (75% of total VFA) and a propionate / butyrate ratio greater than 1. A pyrosequencing of bacterial 16S-DNA was used to characterize the caecal microbiota. At weaning (one month), we observe a predominance of the Bacteroidetes phylum, with 51% of relative abundance, whereas the Firmicutes phylum becomes predominant (50%) at 3 months of age. Caecal microbiota is characterized by the presence of genera often identified in other digestive ecosystems of herbivores, such as: RC9 (2-8%), Parabacteroides (1-8%), Prevotella (3.6%) and Xylanibacter (1%), Erysipelotrichaceae Turicibacter (1-7%), Lachnospiraceae Incertae_Sedis (4-5%), Ruminococcaceae Incertae_Sedis (1-2%) and Ruminococcus (1-3%). Other genera, absent in related species such as rabbits and guinea pigs, seemed more specific of the grasscutter, such as Termite_Treponema_cluster (1.7-2.2%) and Treponema (7-13%) of the Spirochaetes phylum. The analysis of growth performances indicated that a dietary fibre content between 17% and 21% of ADF represents a good compromise between digestive health and growth of the grasscutter after weaning. Decreasing below 6g of digestible protein / MJ of digestible energy, via a high increase in starch intake and a significant decline in crude protein content (below 11%) and fibre, is detrimental to the growth of animals. Aulacode Thryonomys swinderianus Physiologie digestive Pyroséquençage 454 Communautés bactériennes Fibres alimentaires Croissance Santé digestive Cane rat Thryonomys swinderianus Digestive physiology 454 pyrosequencing Bacterial communities Dietary fibre Growth Digestive health
45	Bioremediace persistentních aromatických polutantů / Bioremediation of persistent aromatic pollutants Stella, Tatiana January 2014 (has links) The remediation of persistent chlorinated aromatic compounds has become a priority of great relevance due to the teratogenic, carcinogenic and endocrine-disrupting properties of these xenobiotics. The use of biological methodologies for the clean-up of contaminated sites, collectively referred to as "bioremediation", has been gaining an increasing interest in recent years because it represents an effective, cost-competitive and environmentally friendly alternative to the physico-chemical and thermal treatments. In this respect, "white rot" fungi, an ecological subgroup of filamentous fungi, display features that make them excellent candidates to design an effective remediation technology ("mycoremediation"). In spite of this, fungi have not been widely exploited for their metabolic capabilities and the mechanism by which they are able to degrade the aforementioned pollutants has not been fully elucidated yet. Within this frame, the present Ph.D thesis was aimed at: i) assessing the efficiency of different mycoremediation strategies for the clean-up of a polychlorinated biphenyl (PCBs)-contaminated soil; ii) understanding the fungal degradation pathways of polychlorinated biphenyls and their major metabolites, namely chlorobenzoic acids (CBAs) and hydroxylated polychlorinated biphenyls (OH-PCBs). i)...
46	Nutzung molekularer Hochdurchsatz-Verfahren zur schnellen und eingehenden Artenbestimmung von Pilzgesellschaften / Using high-throughput genotyping for monitoring communities of soil fungi Reich, Marlis 28 May 2009 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Pilze Phylochip Arraytechnik 454 Pyrosequenzierung Artenvielfalt Pilzgesellschaften Waldbaumarten fungi phylochip array technique 454 pyrosequencing mycorrhizal community structure host preference tree species 42 W
47	Taxano-genomics, a strategy incorporating genomic data into the taxonomic description of human bacteria / Taxono-génomique, une stratégie incorporant des données génomiques dans la description taxonomique des bactéries humaines Padmanabhan, Babu roshan 08 December 2014 (has links) Mon projet de doctorat était de créer un pipeline pour taxono-génomique pour la comparaison de plusieurs génomes bactériens. Deuxièmement, je automatisé le processus d'assemblage (NGS) et annotation à l'aide de divers logiciels open source ainsi que la création de scripts de maison pour le laboratoire. Enfin, nous avons intégré le pipeline dans la description de plusieurs espèces bactériennes de laboratoire sur. Cette thèse est divisée principalement en Taxono- génomique et Microbiogenomics. Les avis de la section taxono-génomique, décrit sur les avancées technologiques en génomique et métagénomique pertinentes dans le domaine de la microbiologie médicale et décrit la stratégie taxono-génomique en détail et comment la stratégie polyphasique avec des approches génomiques sont reformatage de la définition de la taxonomie bactérienne. Les articles décrivent les bactéries cliniquement importantes, leur séquençage complet du génome et les études génomiques comparatives, génomiques et taxono-génomique de ces bactéries. Dans cette thèse, j'ai inclus les articles décrivant ces organismes: Megasphaera massiliensis, Corynebacterium ihumii, Collinsella massiliensis, Clostridium dakarense. Bacillus dielmoensis, jeddahense, Occidentia Massiliensis, Necropsobacter rosorum et Pantoea septica. Oceanobacillus / My PhD project was to create a pipeline for taxono-genomics for the comparison of multiple bacterial genomes. Secondly I automated the process of assembly (NGS) and annotation using various open source softwares as well as creating in house scripts for the lab. Finally we incorporated the pipeline in describing several bacterial species from out lab. This thesis is subdivided mainly into Taxono-genomics and Microbiogenomics. The reviews in taxono-genomics section, describes about the technological advances in genomics and metagenomics relevant to the field of medical microbiology and describes the strategy taxono-genomics in detail and how polyphasic strategy along with genomic approaches are reformatting the definition of bacterial taxonomy. The articles describes clinically important bacteria, their whole genome sequencing and the genomic, comparative genomic and taxono-genomic studies of these bacteria. Next Generation Sequencing Les bactéries Les maladies infectieuses La microbiologie La taxonomie Culturomics La génomique La génomique comparative Illumina 454 Ngs Programmation Next Generation Sequencing Bacteria Infectious Disease Microbiology Taxonomy Culturomics Genomics Comparative Genomics Illumina 454 Ngs Programming
48	Distribution and activity of nitrogen-fixing bacteria in marine and estuarine waters Farnelid, Hanna January 2013 (has links) In aquatic environments the availability of nitrogen (N) generally limits primary production. N2-fixing prokaryotes (diazotrophs) can convert N2 gas into ammonium and provide significant input of N into the oceans. Cyanobacteria are thought to be the main N2-fixers but diazotrophs also include a wide range of heterotrophic bacteria. However, their activity and regulation in the water column is largely unknown. In this thesis the distribution, diversity, abundance, and activity of marine and estuarine heterotrophic diazotrophs was investigated. With molecular methods targeting the nifH gene, encoding the nitrogenase enzyme for N2 fixation, it was shown that diverse nifH genes affiliating with heterotrophic bacteria were ubiquitous in surface waters from ten marine locations world-wide and the estuarine Baltic Sea. Through enrichment cultures of Baltic Sea surface water in anaerobic N-free medium, heterotrophic N2 fixation was induced showing that there was a functional N2-fixing community present and isolates of heterotrophic diazotrophs were obtained. In Sargasso Sea surface waters, transcripts of nifH related to heterotrophic bacteria were detected indicating heterotrophic N2-fixing activity. Nitrogenase expression is thought to be highly regulated by the availability of inorganic N and the presence of oxygen. Low oxygen zones within the water column can be found in association with plankton. The presence of diazotrophs as symbionts of heterotrophic dinoflagellates was investigated and nifH genes related to heterotrophic diazotrophs rather than the cyanobacterial symbionts were found, suggesting that a symbiotic co-existence prevailed. Oxic-anoxic interfaces could also be potential sites for heterotrophic N2 fixation. The Baltic Sea contains large areas of anoxic bottom water. At the chemocline and in anoxic deep water heterotrophic diazotrophs were diverse, abundant and active. These findings extend the currently known regime of N2 fixation to also include ammonium-rich anaerobic waters. The results of this thesis suggest that heterotrophic diazotrophs are diverse and widely distributed in marine and estuarine waters and that they can also be active. However, limits in the knowledge on their physiology and factors which regulate their N2 fixation activity currently prevent an evaluation of their importance in the global marine N budget. 454-pyrosequencing diazotrophs heterotrophic bacteria marine bacteria marine microbial ecology microbiology nifH nitrogenase nitrogen fixation PCR qPCR
49	Do microbial communities in soils of the Bolivian Altiplano change under economic pressures for shorter fallow periods? Gomez Montano, Lorena January 1900 (has links) Master of Science / Department of Plant Pathology / Karen A. Garrett / Ari Jumpponen / Traditional fallow periods in the Bolivian highlands are being shortened in an effort to increase short-term crop yields, with potential long-term impacts on soil communities. Using 454-pyrosequencing, we characterized fungal and bacterial community responses to (1) the length of fallow period and (2) the presence of the plants Parasthrephia sp. or Baccharis sp. (both locally known as ‘thola’). Thola is widely considered by farmers as beneficial to soil health, although it is also frequently harvested as a source of fuel by farmers. Soils in one study area, Ancoraimes, had higher levels of organic matter, nitrogen and other macronutrients compared to the other study area, Umala. In our analyses, Ancoraimes soils supported more diverse fungal communities, whereas Umala had more diverse bacterial communities. Unexpectedly, the longer fallow periods were associated with lower fungal diversity in Umala and lower bacterial diversity in Ancoraimes. Fungi assigned to genera Verticillium, Didymella, and Alternaria, and bacteria assigned to genera Paenibacillus, Segetibacter, and Bacillariophyta decreased in abundance with longer fallow period. The presence of thola did not significantly affect overall soil fungal or bacterial diversity, but did increase the frequency of some genera such as Fusarium and Bradyrhizobium. Our results suggest that fallow period has a range of effects on microbial communities, and that the removal of thola from the fields impacts the dynamics of the soil microbial communities. Microbial communities Fallow period Bolivia Altiplano (highland) region 454-pyrosequencing Ecology (0329) Microbiology (0410) Plant Pathology (0480)
50	Clostridium difficile transcriptomics and metronidazole resistance Zhang, Jason J. 28 September 2012 (has links) This is a two-part project. Proton pump inhibitors (PPIs) have been associated with increased risk of C. difficile infections and increased toxin production when combined with antimicrobial therapy. The first part of this project involved characterization of a hypervirulent NAP1 C. difficile strain, including genome sequencing and assembly, and the development of methods to study its transcriptomics using RNA-Seq, which will enable future researchers to study different expression patterns when toxigenic C. difficile is challenged with PPIs and/or antimicrobials in vitro. The second part of this project involved characterizing a clinical isolate of a NAP1 C. difficile displaying a markedly elevated MIC to metronidazole (MIC = 16 mg/mL), which initially exhibited MIC of 32 mg/mL. A method of obtaining a metronidazole-susceptible revertant from this isolate was developed and a revertant was obtained. The genomes of both isolates were sequenced, assembled, and aligned, then compared to each other for polymorphisms. Clostridium difficile transcriptomics CDI CDAD metronidazole resistance PPI transcriptome RNA-seq NAP1 NAP2 PFGE 454 pyrosequencing MIC microcolony microcolonies heteroresistance

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