Global ETD Search

131	Identifizierung und funktionelle Charakterisierung von für die arbuskuläre Mykorrhizasymbiose spezifischen Genen in Medicago truncatula / Identification and functional characterization of genes specific for the arbuscular mycorrhizal symbiosis in Medicago truncatula Reinert, Armin January 2012 (has links) Die Mykorrhiza (griechisch: mýkēs für „Pilz”; rhiza für „Wurzel”) stellt eine Symbiose zwischen Pilzen und einem Großteil der Landpflanzen dar. Der Pilz verbessert durch die Symbiose die Versorgung der Pflanze mit Nährstoffen, während die Pflanze den Pilz mit Kohlenhydraten versorgt. Die arbuskuläre Mykorrhiza (AM) stellt dabei einen beson-dere Form der Mykorrhiza dar. Der AM-Pilz bildet dabei während der Symbiose die namensgebenden Arbuskeln innerhalb der Wurzelzellen als Ort des primären Nährstoff- austausches aus. Die AM-Symbiose (AMS) ist der Forschungsschwerpunkt dieser Arbeit. Als Modellorganismen wurden Medicago truncatula und Glomus intraradices verwendet. Es wurden Transkriptionsanalysen durchgeführt um u.a. AMS regulierte Transkriptions- faktoren (TFs) zu identifizieren. Die Aktivität der Promotoren von drei der so identifizier-ten AMS-regulierten TFs (MtOFTN, MtNTS, MtDES) wurde mit Hilfe eine Reportergens visualisiert. Der Bereich der größten Promotoraktivität waren in einem Fall nur die ar- buskelhaltigen Zellen (MtOFTN). Im zweiten Fall war der Promotor auch aktiv in nicht arbuskelhaltigen Zellen, jedoch am stärksten aktiv in den arbuskelhaltigen Zellen (MtNTS). Ein weiterer Promotor war in arbuskelhaltigen Zellen und den diesen benach-barten Zellen gleich aktiv (MtDES). Zusätzlich wurden weitere Gene als AMS-reguliert identifiziert und es wurde für drei dieser Gene (MtPPK, MtAmT, MtMDRL) ebenfalls eine Promotor::Reporter-Aktivitäts- studie durchgeführt. Die Promotoren der Kinase (MtPPK) und des Ammoniumtrans-porters (MtAmt) waren dabei ausschließlich in arbuskelhaltigen Zellen aktiv, während die Aktivität des ABC-Transporters (MtMDRL) keinem bestimmten Zelltyp zuzuordnen war. Für zwei weitere identifizierte Gene, ein Kupfertransporter (MtCoT) und ein Zucker- bzw. Inositoltransporter (MtSuT), wurden RNA-Interferenz (RNAi)-Untersuchungen durchgeführt. Dabei stellte sich in beiden Fällen heraus, dass, sobald ein RNAi-Effekt in den transformierten Wurzeln vorlag, diese in einem deutlich geringerem Ausmaß wie in der Wurzelkontrolle von G. intraradices kolonisiert worden sind. Im Falle von MtCoT könnte das aus dem selben Grund geschehen, wie im Falle von MtPt4. Welche Rolle MtSuT genau in der Ausbildung der AMS spielt und welche Rolle Inositol in der Aus- bildung der AMS spielt müsste durch weitere Untersuchungen am Protein untersucht werden. Weitere Untersuchen an den in dieser Arbeit als spezifisch für arbuskelhaltige Zellen gezeigten Genen MtAmT, MtPPK und MtOFTN könnten ebenfalls aufschlussreich für das weitere Verständnis der AMS sein. Dies trifft auch auf die TFs MtNTS und MtDES zu, die zwar nicht ausschließlich arbuskelspezifisch transkribiert werden, aber auch eine Rolle in der Regulation der AMS innerhalb von M. truncatula Wurzeln zu spielen scheinen. / The mycorrhiza (Greek: mýkēs for "mushroom"; rhiza for "root") is a symbiosis between fungi and the vast majority of land plants. The fungus improves the nutrient supply of the plant, while the plant provides the fungus with carbohydrates. The arbuscular my-corrhiza (AM) represents a special type of mycorrhiza. The AM forms during the sym-biosis eponymous arbuscules within the root cells as the supposed site of the major nu-trient exchange. The AM symbiosis (AMS) is the research focus of this work. Medicago truncatula and Glomus intraradices were used as model organisms. During the project several transcription analysis were performed to identify AMS re-gulated transcription factors (TFs). The activity of the promoters of three of the identified AMS regulated TFs (MtOFTN, MtNTS, MtDES) were visualised using a reporter gene. Cells with promoter activity were in one case the arbuscle containing cells (MtOFTN). In the another case, the promoter was also weakly active in non arbuscle containing cells, however the major site of activity were the arbuscle containing cells (MtNTS). Another promoter was active in arbuscle containing and adjacent cells (MtDES). In addition, other genes were identified as AMS regulated and for three of these genes (MtPPK, MtAmT, MtMDRL) a promoter::reporter activity study was conducted, too. The promoters of the kinase (MtPPK) and the ammonium transporter (MtAmT) were active exclusively in arbuscle containing cells, whereas the activity of the ABC-transporter (MtMDRL) could not be assigned to a specific cell type. For two other identified genes (a copper transporter (MtCoT) and a sugar/ inositol transporter (MtSuT)) RNA-interference (RNAi) studies were carried out. The studies revealed in both cases that, once an RNAi effect was present in the transformed roots, the roots were colonised by G. intraradices in a much lesser extent as in the vector-control. In the case of MtCoT it maybe has the same basic principle as in the case of the phosphate transporter MtPt4. Which role MtSuT and inositol plays during the fo-rmation of the AMS has to be reviewed. Further examinations on the genes MtAmT, MtPPK and MtOFTN could also be reveal-ing for the understanding of the AMS, as their promotors, as shown in this thesis, are exclusively active in arbuscle containing cells The same can be said for the TFs MtNFTS and MtDES. They are not exclusively transcripted in arbuscle containing cells, but nevertheless seem to play a role in the formation of the AMS within M. truncatula roots. Mykorrhiza Medicago truncatula Transkriptom RNAi Promotor Mycorrhiza Medicago truncatula transcriptomics RNAi Promotor Life sciences
132	Metabolic engineering and omics analysis of Agrobacterium sp. ATCC 31749 for oligosaccharide synthesis Ruffing, Anne M. 24 February 2010 (has links) Oligosaccharides are important biomolecules that are targets and also components of many medical treatments, including treatments for cancer, HIV, and inflammation. While the demand for medically-relevant oligosaccharides is increasing, these compounds have proven difficult to synthesize. Whole-cell oligosaccharide synthesis is a promising method that requires relatively inexpensive substrates and can complete the synthesis in just one step. However, whole-cell oligosaccharide synthesis employing common microorganisms like E. coli have been plagued by low yields. This dissertation investigates an alternative microorganism for oligosaccharide production: Agrobacterium sp. ATCC 31749. This Agrobacterium strain produces high levels of curdlan polysaccharide, demonstrating its natural ability to produce the sugar nucleotide precursor for oligosaccharide production. The two main objectives of this dissertation are 1) to develop biocatalysts for oligosaccharide synthesis by engineering ATCC 31749 and 2) to determine what factors affect poly- and oligosaccharide production in this Agrobacterium strain. ATCC 31749 was engineered to produce two oligosaccharides of medical importance: N-acetyllactosamine and galactose-α 1,3-lactose. Oligosaccharide production in the biocatalyst was further improved with additional metabolic engineering. Substrate uptake was increased through expression of a lactose permease, and availability of the sugar nucleotide substrate improved with gene knockout of the curdlan synthase gene. Both of these engineering efforts led to increased oligosaccharide synthesis in the Agrobacterium biocatalyst. Overall, the engineered Agrobacterium strains synthesized gram-scale quantities of the oligosaccharide products in just one step and requiring only a few inexpensive substrates and cofactors. Additional improvement of the oligosaccharide-producing biocatalysts required further investigation of the factors influencing poly- and oligosaccharide production in ATCC 31749. In this dissertation, several environmental and intracellular factors are identified that affect both oligosaccharide and curdlan production. Sucrose was the preferred carbon source for oligosaccharide synthesis, and the addition of citrate to the synthesis reaction led to significant improvement in oligosaccharide production. To identify the genetic factors and possible mechanisms regulating curdlan production, the genome of ATCC 31749 was sequenced. The genome sequence was utilized for transcriptome analysis of ATCC 31749. In the transcriptome analysis, genes significantly up- and down-regulated during curdlan production were identified. Subsequent gene knockout experiments showed several factors to be important for curdlan synthesis, namely the nitrogen signaling cascade, polyphosphate, and the GTP-derived second messengers (p)ppGpp and c-di-GMP. In addition to the development of biocatalysts for oligosaccharide production, this investigation provides insight into the complex mechanisms regulating exopolysaccharide synthesis. Genome sequencing Genomics Transcriptomics Oligosaccharide Agrobacterium Metabolic engineering Oligosaccharide synthesis Agrobacterium Oligosaccharides Synthesis Enzymes
133	Hepatic Stress Response Mechanisms in Progressive Human Nonalcoholic Fatty Liver Disease Lake, April D. January 2013 (has links) Nonalcoholic fatty liver disease (NAFLD) has become a worldwide, chronic liver disease of increasing clinical significance. It is closely associated with the rising epidemics of obesity and insulin resistance. Up to 17% of the United States population may progress from the disease stage characterized as simple, benign steatosis to the more severe, inflammatory stage of nonalcoholic steatohepatitis (NASH). This progression occurs through 2nd 'hits' of increased oxidative stress and inflammation to a liver that has been sensitized by lipotoxic stress. NASH is also characterized by increased collagen deposition resulting in fibrosis and architectural rearrangement of the liver. Progressive NAFLD is currently recognized as an important contributor to the development of cryptogenic cirrhosis and subsequent liver-related mortalities (estimated at 30-40% in these patients).The pathological progression of NAFLD, as described by the 'two hit' hypothesis, characterizes the different stages of liver injury. However, the mechanism(s) responsible for the progression to NASH are unknown. Profiling global gene expression and metabolite patterns in human liver samples representing the full spectrum of progressive human NAFLD may reveal potential mechanisms of progressive disease. Human liver samples representing each stage of NAFLD progression were analyzed by methodologies such as high-throughput microarrays, high resolution mass spectrometry, and protein immunoblot techniques. Bioinformatics tools and gene expression/regulation database software were utilized in several studies to characterize the altered hepatic profiles of these patients. Hepatic transcriptomic profiles of ADME (absorption, distribution, metabolism and elimination) and ER (endoplasmic reticulum) stress response genes exhibited initiated hepatoprotective responses in patients with NASH. The endogenous pathways of BA (bile acid) synthesis and BCAA (branched chain amino acid) metabolism also showed evidence of coordinately regulated alterations in response to disease-induced stress in NASH. The transcriptional regulation of the investigated pathways was confirmed by transcription factor binding sites enrichment analysis. The collective response to hepatic stress in human NAFLD, demonstrates a coordinated, hepatoprotective intent that may be utilized for future therapeutics in the battle against progressive liver disease. Metabolism and Transport Metabolomics Nonalcoholic Fatty Liver Disease Stress Transcriptomics Pharmacology & Toxicology Liver
134	A systems biology approach to target identification using three-dimensional multi-cellular tumour spheroids (MCTS) : regio-specific molecular dissection of gene expression, protein expression and functional activity in 3D MCTS McMahon, Kelly January 2011 (has links) Within solid tumours, a microenvironment exists that causes resistance to chemotherapy. New drugs that target cells within this microenvironment are required, the first step in this process being the identification of new targets. The aim of this thesis was to characterise changes in the transcriptome and proteome within specific regions of multicell-tumour spheroids (MCTS), an experimental model that mimics many of the features of the tumour microenvironment. HT29 MCTS were separated by sequential trypsinisation into 3 main regions; the outer surface layer (SL) the peri-necroric region (PN) and the necrotic core (NC). Using an iTRAQ quantitative proteomics approach, the proteome of the different MCTS regions was investigated. A 2 dimensional separation approach using Agilent's OffGel system and RP-nano HPLC was incorporated prior to MS analysis. MS analysis was done using both MALDI-TOF-TOF (Bruker Ultraflex II) and ESI-Q-TOF (Agilent 6530 QTOF LC/MS) instruments. Gene expression profiles of the different MCTS were investigated and compared using Agilent's one-color oligonucleotide based microarrays. Transcriptomic and proteomic analysis identified several key differences in the proteins involved in cell metabolism between the SL and PN/NC regions. Similar metabolic changes were also noted between autophagic and normal monolayer cells. Many highlighted proteins represented established cancer associated proteins. Interestingly, a number of proteins were highlighted which have no previous association with cancer and may upon further validation, provide attractive leads for therapeutic intervention. 616.99
135	A Next-Generation Approach to Systematics in the Classic Reticulate <italic>Polypodium vulgare<italic> Species Complex (Polypodiaceae) Sigel, Erin Mackey January 2014 (has links) <p>The <italic>Polypodium vulgare<italic> complex (Polypodiaceae) comprises a well-studied group of fern taxa whose members are cryptically differentiated morphologically and have generated a confusing and highly reticulate species cluster. Once considered a single species spanning much of northern Eurasia and North America, <italic>P. vulgare<italic> has been segregated into approximately 17 diploid and polyploid taxa as a result of cytotaxonomic work, hybridization experiments, and isozyme studies conducted during the 20th century. Despite considerable effort, however, the evolutionary relationships among the diploid members of the <italic>P. vulgare<italic> complex remain poorly resolved, and several taxa, particularly allopolyploids and their diploid progenitors, remain challenging to delineate morphologically due to a dearth of stable diagnostic characters. Furthermore, compared to many well-studied angiosperm reticulate complexes, relatively little is known about the number of independently-derived lineages, distribution, and evolutionary significance of the allopolyploid species that have formed recurrently. This dissertation is an attempt to advance systematic knowledge of the <italic>Polypodium vulgare<italic> complex and establish it as a "model" system for investigating the evolutionary consequences of allopolyploidy in ferns. </p><p>Chapter I presents a diploids-only phylogeny of the <italic>P. vulgare<italic> complex and related species to test previous hypotheses concerning relationships within <italic>Polypodium<italic> sensu stricto. Analyses of sequence data from four plastid loci (<italic>atpA<italic>, <italic>rbcL<italic>, <italic>matK<italic>, and <italic>trnG-trnR<italic>) recovered a monophyletic <italic>P. vulgare<italic> complex comprising four well-supported clades. The <italic>P. vulgare<italic> complex is resolved as sister to the Neotropical <italic>P. plesiosorum<italic> group and these, in turn, are sister to the Asian endemic <italic>Pleurosoriopsis makinoi<italic>. Divergence time analyses incorporating previously derived age constraints and fossil data provide support for an early Miocene origin for the <italic>P. vulgare<italic> complex and a late Miocene-Pliocene origin for the four major diploid lineages of the complex, with the majority of extant diploid species diversifying from the late Miocene through the Pleistocene. Finally, node age estimates are used to reassess previous hypotheses, and to propose new hypotheses, about the historical events that shaped the diversity and current geographic distribution of the diploid species of the <italic>P. vulgare<italic> complex. </p><p>Chapter II addresses reported discrepancies regarding the occurrence of <italic>Polypodium calirhiza<italic> in Mexico. The original paper describing this taxon cited collections from Mexico, but the species was omitted from the recent <italic>Pteridophytes of Mexico<italic>. Originally treated as a tetraploid cytotype of <italic>P. californicum<italic>, <italic>P. calirhiza<italic> now is hypothesized to have arisen through hybridization between <italic>P. glycyrrhiza<italic> and <italic>P. californicum<italic>. The allotetraploid can be difficult to distinguish from either of its putative parents, but especially so from <italic>P. californicum<italic>. These analyses show that a combination of spore length and abaxial rachis scale morphology consistently distinguishes <italic>P. calirhiza<italic> from <italic>P. californicum<italic> and confirm that both species occur in Mexico. Although occasionally found growing together in the United States, the two species are strongly allopatric in Mexico, where <italic>P. californicum<italic> is restricted to coastal regions of the Baja California peninsula and neighboring Pacific islands and <italic>P. calirhiza<italic> grows at high elevations in central and southern Mexico. The occurrence of <italic>P. calirhiza<italic> in Oaxaca, Mexico, marks the southernmost extent of the P. vulgare complex in the Western Hemisphere.</p><p>Chapter III examines a case of reciprocal allopolyploid origins in the fern <italic>Polypodium hesperium<italic> and presents it as a natural model system for investigating the evolutionary potential of duplicated genomes. In allopolyploids, reciprocal crosses between the same progenitor species can yield lineages with different uniparentally inherited plastid genomes. While likely common, there are few well-documented examples of such reciprocal origins. Using a combination of uniparentally inherited plastid and biparentally inherited nuclear sequence data, we investigated the distributions and relative ages of reciprocally formed lineages in <italic>Polypodium hesperium<italic>, an allotetraploid fern that is broadly distributed in western North America. The reciprocally-derived plastid haplotypes of <italic>Polypodium hesperium<italic> are allopatric, with populations north and south of 42˚ N latitude having different plastid genomes. Biogeographic information and previously estimated ages for the diversification of its diploid progenitors, lends support for middle to late Pleistocene origins of <italic>P. hesperium<italic>. Several features of <italic>Polypodium hesperium<italic> make it a particularly promising system for investigating the evolutionary consequences of allopolyploidy. These include reciprocally derived lineages with disjunct geographic distributions, recent time of origin, and extant diploid progenitor lineages. </p><p>This dissertation concludes by demonstrating the utility of the allotetraploid <italic>Polypodium hesperium<italic> for understanding how ferns utilize the genetic diversity imparted by allopolyploidy and recurrent origins. Chapter IV details the use of high-throughput sequencing technologies to generate a reference transcriptome for <italic>Polypodium<italic>, a genus without preexisting genomic resources, and compare patterns of total and homoeolog-specific gene expression in leaf tissue of reciprocally formed lineages of <italic>P. hesperium<italic>. Genome-wide expression patterns of total gene expression and homoeolog expression ratios are strikingly similar between the lineages--total gene expression levels mirror those of the diploid progenitor P. amorphum and homoeologs derived from <italic>P. amorphum<italic> are preferentially expressed. The unprecedented levels of unbalanced expression level dominance and unbalanced homoeolog expression bias found in <italic>P. hesperium<italic> supports the hypothesis that these phenomena are pervasive consequences of allopolyploidy in plants.</p> / Dissertation Biology Systematic biology Plant biology ferns phylogenetics polyploidy reticulate evolution transcriptomics
136	Phage Fate: Infection Dynamics and Outcomes in a Marine Virus - Host System Howard-Varona, Cristina January 2015 (has links) Viruses infecting bacteria (phages) are the most abundant and ubiquitous entities on Earth and likely critical to any ecosystem, as they influence nutrient cycling, mortality and evolution. Ultimately, their impact depends on whether phage—host interactions lead to intracellular phage coexistence (temperate phage) or cell death (lytic phage). Temperate phages in the lysogenic cycle replicate their genome (either integrated into the host chromosome or extrachromosomally), until induced to become lytic, when they create and release progeny via cell lysis. While knowledge on lytic versus lysogenic outcomes is vast, it largely derives from few model systems that underrepresent natural diversity. Further, less is known about the efficiency of phage—host interactions and the regulation of optimal versus sub-optimal lytic infections, which are predicted as relevant under environmental (nutrients, temperature) and host (availability, density) conditions that are common in the ocean. In this dissertation I characterize the phage—host interactions in a new marine model system, phage ϕ38:1 and its Cellulophaga baltica bacterial host, member of the ubiquitous Bacteroidetes phylum. First, I show ϕ38:1’s ability to infect numerous, genetically similar strains of the C. baltica species, two of which display contrasting infection outcomes–lytic versus sub-optimally lytic or lysogenic on the original versus alternative hosts, respectively. Second, I collaboratively apply new gene marker-based approaches (phageFISH and geneELISA) to study ϕ38:1’s infection at the single-cell level and show that it is sub-optimal on the alternative host, rather than lysogenic. Third, I collaboratively develop whole-genome transcriptome datasets for ϕ38:1 infecting both, the optimal and sub-optimal hosts, to characterize the cellular response to infection and hypothesize potential transcriptional and post-transcriptional regulation of the sub-optimal infection. Together, these findings advance our knowledge of naturally-occurring phage—host interactions with a focus on nearly-unstudied sub-optimal infections. Bacteriophage Efficient lytic Inefficient lytic Phage-host interactions Transcriptomics Molecular & Cellular Biology Bacteria
137	The significance of feedback de-excitation Külheim, Carsten January 2005 (has links) During photosynthesis sunlight is absorbed by photosynthetic pigments and converted into organic compounds, such as carbohydrates. Photosynthesis needs to be highly regulated, since both too much and too little light are harmful to plant. If too little light is absorbed, a plant cannot store enough energy, which will have effects on growth and fitness of the plant. With too much light absorbed, a dangerous side reaction of photosynthesis, the production of reactive oxygen species can happen. These reactive oxygen species can damage the proteins in the chloroplast and the lipids of the chloroplast. To avoid the production of reactive oxygen species, plants have evolved many mechanisms, which act on different time-scales and different levels of organization. As a first measure, when the absorbed light is exceeding the capacity for its utilization, is to switch the light-harvesting antenna from efficient light harvesting to energy dissipation. This process is called feedback de-excitation (FDE). The protein PsbS is essential for this process as well as a functioning xanthophylls cycle with the enzyme violaxanthin de-epoxidase (VDE). I have investigated the effects of plants with changes in their ability to dissipate excess excitation energy in the model plants species Arabidopsis thaliana. Three genotypes with either increased or decreased capacity for FDE were used during my experiments. The first genotype over-expresses the PsbS gene, having approximately two-fold increased amounts of PsbS and FDE. The second is a PsbS deletion mutant with no PsbS protein and no FDE. The third genotype cannot perform the conversion of violaxanthin to zeaxanthin, because the enzyme VDE is missing. This mutant has some FDE left. Arabidopsis thaliana is an annual plant, which flowers only once in its lifetime. Therefore, when counting the seeds produced an estimation of fitness can be made from the amount of seeds produced. This was done during my experiments and shown that FDE is a trait and that plants with increased FDE have a higher fitness and vice versa. This was also the case for a collection of plants lacking a single protein from the light harvesting antenna. All of these genotypes had a fitness reduction, proving that their function is not redundant. In an attempt to explain why the fitness is reduced in plants with altered FDE, photosynthetic measurements, as well as a determination of the transcriptome and the metabolome was performed. Plants lacking FDE had higher levels of photoinhibition, leading both to lower rates of photosynthesis and to higher repair cost. This could in part explain the reduction in fitness. These plants also had major changes in their transcriptome and their metabolome. Primary metabolism was most effected, for example carbohydrate and amino acid metabolism. But there were also changes in secondary metabolism such as an up regulation of the biosynthesis of anthocyanins. Arabidopsis thaliana photosynthesis feedback de-excitation fitness metabolomics transcriptomics Plant physiology Växtfysiologi
138	High Resolution Transcriptional Profiling and Characterization of Cellular Inclusions in Arabidopsis thaliana Roots Grown in Low Sulfur Conditions Jackson, Terry Lynell January 2013 (has links) <p>Environmental stress affects plant development and productivity. Sulfur deficiency is a key nutrient deficiency that adversely affects crop yield. The model plant Arabidopsis thaliana has played an informative role in deciphering the mechanisms involved in sulfur assimilation, as well as, the response to limited conditions. Using Arabidopsis thaliana as a model to investigate gene expression in the root, microarray data sets have been generated. These data sets consist of whole root sections for 6 time points across 72 hours, and enriched populations of 5 radial cell-types and 4 sections of 3 developmental zones of the root at 3 hrs on sulfur limited conditions. With these data it was determined which cellular tissues and developmental zones were affected most by sulfur limited conditions. Furthermore, a novel phenotype was characterized that occurs in roots after growth on low sulfur conditions. Cellular inclusions build up within the cytoplasm of mature cortical root cells. These inclusions have been termed "sulfur pox" and their composition remains to be determined.</p> / Dissertation Genetics Arabidopsis thaliana Cellular Inclusions Developmental Biology Environmental Stress Sulfur Deficiency Transcriptomics
139	Analyse und Charakterisierung regulatorischer Vorgänge in Bacillus licheniformis / Analysis and characterisation of regulatory events in Bacillus licheniformis Dietrich, Sascha 14 January 2015 (has links) No description available. 570 Transcriptomics Bacillus licheniformis DSM13 RNA-Seq Regulatory RNAs Biologie (PPN619462639)
140	Sviluppo ed applicazione di pipilines bioinformatiche per l'analisi di dati NGS / DEVELOPMENT AND APPLICATION OF BIOINFORMATICS PIPELINES FOR NEXT GENERATION SEQUENCING DATA ANALYSIS LAMONTANARA, ANTONELLA 28 January 2015 (has links) Lo sviluppo delle tecnologie di sequenziamento ha portato alla nascita di strumenti in grado di produrre gigabasi di dati di sequenziamento in una singola corsa. Queste tecnologie, comunemente indicate come Next Generation Sequencing o NGS, producono grandi e complessi dataset la cui analisi comporta diversi problemi a livello bioinformatico. L'analisi di questo tipo di dati richiede la messa a punto di pipelines computazionali il cui sviluppo richiede un lavoro di scripting necessario per concatenare i softwares già esistenti. Questa tesi tratta l'aspetto metodologico dell'analisi di dati NGS ottenuti con tecnologia Illumina. In particolare in essa sono state sviluppate tre pipelines bioinformatiche applicate ai seguenti casi studio: 1) uno studio di espressione genica mediante RNA-seq in "Olea europaea" finalizzato all’indagine dei meccanismi molecolari alla base dell’acclimatazione al freddo in questa specie; 2) uno studio mediante RNA-seq finalizzato all’identificazione dei polimorfismi di sequenza nel trascrittoma di due razze bovine mirato a produrre un ampio catalogo di marcatori di tipo SNPs; 3) il sequenziamento, l’assemblaggio e l’annotazione del genoma di un ceppo di Lactobacillus plantarum che mostrava potenziali proprietà probiotiche. / The advance in sequencing technologies has led to the birth of sequencing platforms able to produce gigabases of sequencing data in a single run. These technologies commonly referred to as Next Generation Sequencing or NGS produce millions of short sequences called “reads” generating large and complex datasets that pose several challenges for Bioinformatics. The analysis of large omics dataset require the development of bioinformatics pipelines that are the organization of the bioinformatics tools in computational chains in which the output of one analysis is the input of the subsequent analysis. A work of scripting is needed to chain together a group of existing software tools.This thesis deals with the methodological aspect of the data analysis in NGS sequencing performed with the Illumina technology. In this thesis three bioinformatics pipelines were developed.to the following cases of study: 1) a global transcriptome profiling of “Oleaeuropeae” during cold acclimation, aimed to unravel the molecular mechanisms of cold acclimation in this species; 2) a SNPs profiling in the transcriptome of two cattle breeds aimed to produce an extensive catalogue of SNPs; 3) the genome sequencing, the assembly and annotation of the genome of a Lactobacillus plantarum strain showing probiotic properties. BIO/11: BIOLOGIA MOLECOLARE

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