Global ETD Search

11	An experimental and genomic approach to the regulation of alternative pre-mRNA splicing in Drosophila rnp-4f Fetherson, Rebecca A. January 2005 (has links) Thesis (M.S.)--Miami University, Dept. of Zoology, 2005. / Title from first page of PDF document. Document formatted into pages; contains [1], ix, 75 p. : ill. Includes bibliographical references (p. 69-75).
12	Gene regulatory factors in the evolutionary history of humans Perdomo-Sabogal, Alvaro 13 October 2016 (has links) (PDF) Changes in cis- and trans-regulatory elements are among the prime sources of genetic and phenotypical variation at species level. The introduction of cis- and trans- regulatory variation has played important roles in driving diversity, phenotypical differentiation, and evolution of humans. Therefore, variation that occurs on cis- and trans- regulatory elements becomes imperative to better understanding of human genetic diversity and its evolution. In this research, around 3360 gene regulatory factors (GRF) from the human genome were catalogued. This catalog includes genes that code for proteins that perform gene regulatory activities such DNA-depending transcription, RNA polymerase II transcription cofactor and co-repressor activity, chromatin binding and remodeling, among other 218 regulatory functions. This GRF catalog allowed us to initially explore how some GRF genes have evolved in humans, archaic humans (Neandertal and Denisovan) and non-human primate species. We discussed the likely phenotypical and medical effects that evolutionary changes in GRF genes may have introduced into the human genome; for instance, traits associated to speech and language capabilities, genomic recombination hotspots, diseases, among others. By using genome-wide datasets, we additionally looked for GRFs likely to be candidates for positive selection in three human populations: Utah Residents with Northern and Western Ancestry (CEU), Han Chinese in Beijing (CHB), and Yoruba in Ibadan (YRI). As result, we produced a set of candidates that gathers genes that may have contributed in shaping the phenotypical diversity currently observed in these populations; for instance, by introducing regulatory diversity at population-specific level. We additionally identified six GRF classes enriched for genes located in regions that are likely candidates for positive selection at population specific level. We found that out of the 41 DNA-binding GRF classes classified so far, six groups exhibited enrichment for genes located on regions that may have been under positive selection: C2H2 zinc finger, KRAB-ZNF zinc finger, Homeo domain, Tryptophan cluster, Fork head/winged helix and, and High-mobility HMG domain. We additionally identified three KRAB-ZNF gene clusters, in the chromosomes one, three, and 16, for the Asian population that exhibit regions with extended haplotype homozygosity EHH (larger than 100 kb). This EHH suggests that these regions have undergone positive selection in CHB population. Finally, considering that a representative fraction of the phenotypic diversity observed between humans and its closely related species are likely explained by changes in cis-regulatory elements (CREs), we investigated putative binding sites for the transcription factor GABPa. Using ChIP-Seq data generated from a human cell line (HEK293T), 11,619 putative GABPa CREs were found, Out of which 224 are putative human-specific. To experimentally validate the transcriptional activity of these human-specific CREs, reporter gene essays and knock-down experiments were performed. Our results supported the functionality of these human-specific GABPa CREs and suggest that at least 1,215 genes are primary targets of GABPa. Finally, further analyses depict scenarios that put together transcriptional regulation by GABPa and the evolution of particular human traits; for instance, cognitive abilities, breast morphology, lipids and glucose metabolic pathways, among others. Human regulatorische Evolution Genregulatorische Faktoren positive Selektion Cis-regulatorische Elemente GABPa Human regulatory evolution gene regulatory factors positive selection Cis-regulatory elements GABPa ddc:000
13	Identification à l'échelle génomique des éléments cis-régulateurs actifs au cours du développement des ascidies / Genome-wide identification of active cis-regulatory elements during ascidian development Gineste, Mathieu 13 December 2013 (has links) Les ascidies présentent des propriétés remarquables au sein des métazoaires qui en font un modèle particulièrement intéressant pour étudier le fonctionnement et l’évolution des éléments cis-régulateurs dans un contexte développemental. Ciona intestinalis et Phallusia mammillata, deux espèces d’ascidies qui ont divergé il y a environ 300 millions d’années, combinent une grande conservation de leurs processus développementaux avec une grande divergence de leur séquence génomique. Pour comprendre comment « fabriquer » des embryons similaires avec des génomes divergents, nous avons identifié les éléments cis-régulateurs actifs au cours du développement de Ciona intestinalis et Phallusia mammillata en développant et en appliquant la méthode de ChIP-Seq sur des modifications d’histones sur des jeunes gastrulae. La définition puis la validation fonctionnelle de différentes catégories d'éléments cis-régulateurs nous a permis de révéler quelques propriétés de la cis-régulation au sein de génomes compacts et intensément remaniés. En sus, les données que nous avons produites constituent une resource fonctionnelle unique pour la caractérisation des éléments cis-régulateurs chez les ascidies et l'étude de leur évolution au sein des Chordés. / Ascidians display remarkable features within metazoans making them particularly suited for the study of function and evolution of cis-regulatory elements in the context of embryonic development. Ciona intestinalis and Phallusia mammillata, two ascidian species that diverged about 300M years ago, combine high conservation of their developmental processes with high divergence of their genome sequence. To understand how to “make” similar embryos with divergent genomes, we identified active cis-regulatory elements during Ciona intestinalis and Phallusia mammillata development by developing and applying the ChIP-Seq method on histone modifications in early-gastrula embryos. Definition then functional validation of different categories of cis-regulatory elements led us to reveal some features of cis-regulation within compact and highly dynamic genomes. Together, our data constitute a unique functional resource for characterizing cis-regulatory elements in ascidians and questioning their evolution within the Chordates. Éléments cis-régulateurs Ascidies ChIP-Seq Modifications d'histones Évo-dévo Cis-regulatory elements Ascidians ChIP-Seq Histone modifications Evo-devo 571.8
14	An experimental and genomic approach to the regulation of alternative pre-mRNA splicing in Drosophila rnp-4f Fetherson, Rebecca A. 30 April 2005 (has links) No description available. Biology, Molecular Alternative pre-mRNA splicing 5'-UTR splicing Splicing regulation Facultative intron splicing Cis-regulatory elements Stem-loop regulatory models
15	Análise transcriptômica de genes e LTR retrotransposons em arroz (Oryza sativa ssp. japonica) em resposta à toxidez por ferro / Transcriptomic analysis of genes and LTR retrotransposons in rice (Oryza sativa ssp. japonica) in response to iron toxicity Finatto, Taciane 27 February 2012 (has links) Made available in DSpace on 2014-08-20T14:06:12Z (GMT). No. of bitstreams: 1 tese_taciane_finatto.pdf: 5834731 bytes, checksum: e10f781234d54582cc17a9b8dff16c53 (MD5) Previous issue date: 2012-02-27 / Iron toxicity in plants is associated with the presence of large concentrations of reduced iron (Fe2+) in the soil solution, which occurs in flooded soils and affects rice plants grown under this condition. Symptoms of iron toxicity involve oxidative stress in leaves, as a response to excessive Fe2+ absorption by the roots. The responses of plants to stress conditions include stimulus perception, signal transduction and gene transcription activation. Besides gene expression, LTR (Long Terminal Repeat) retrotransposons represent ca. 22% of the rice genome, they can be transcriptionally activated under stress, and they can alter the expression of adjacent genes (e.g. due to alterations in chromatin structure). This study aimed to identify differentially expressed genes and LTR retrotransposons in leaves of 18-day-old rice seedlings (Oryza sativa ssp. japonica cv. Nipponbare) after four days of iron excess exposure. They were identified a differential expression of genes and LTR retrotransposons in rice exposed to iron excess using a microarray approach. Total RNA was extracted from leaves of 18-day-old rice seedlings (Oryza sativa L. ssp japonica cv. Nipponbare) after four days of cultivation in nutrient solution with iron excess (7 mM of FeSO47H2O) and in a control solution. The hybridization was performed with cDNA and rice transposome array v. 2.0 microarray (Roche/NimbleGen technology, an improvement of v.1.0, Picault et al., 2009). Data from gene expression was analyzed by the Bayesian t-test with BH adjustment method. Gene annotation, gene ontology, and LTR retrotransposon identification were performed at RAP-DB (Rice Annotation Project Database, build 5), and microarray results were validated by RT-qPCR. Considering log2 FC (log2-fold-change) ≤ -1 as underexpression and ≥ 1 as overexpression (p-values ≤ 0.05), 44 down-regulated and 1,572 up-regulated genes with described function were identified. Down-regulated genes were related to a wide range of functions and no gene family could be highlighted. Among the up-regulated genes, 166 were transcription factors, the most representative belonging to the Zinc finger RING/FYVE/PHD-type family (22) and WRKY family (19); other genes were from the kinase family, participating in biological processes of protein amino acid phosphorylation (86); had molecular function of iron ion binding (56); were involved in response to oxidative stress (scavenging of reactive oxygen species) (26); had molecular function of transport activity (84), including four genes related to heavy metal transport/detoxification and four genes of the multi antimicrobial extrusion protein MATE family; and were involved in the biological process of apoptosis (14), including 10 genes of NB-ARC. Among the up-regulated genes, 435 present at least one cis-regulatory element responsive to abscisic acid (ABA) with significant occurrence (P≤0.05) in its promoter region (1 kbp upstream of the transcription start site). These data indicate that about 28% of the up-regulated genes can be regulated by changing in the ABA content in leaves in response to iron excess. Regarding expression of LTR retrotransposons, 302 were down-regulated (53 Ty1/Copia, 172 Ty3/Gypsy and 77 unclassified), and 4342 up-regulated (466 Ty1/Copia, 2276 Ty3/Gypsy and 1600 unclassified). They were observed a large activity of LTR retrotransposons in response to iron toxicity, and furthermore, they were verified that LTR retrotransposons transcription can extend to 5' and 3' flanking regions. In addition, 16 situations that should up-regulated LTR retrotransposons are located at a very short distance (smaller than 1000 base pairs) in the same chromosome of up-regulated genes suggesting co-transcription, these occurrences are represented by eight where the LTR retrotransposon and the gene have the same sense of transcription (plus); five occurrences with the both with the same sense of transcription (minus) and one occurrence where they have opposite senses. Additionally, two occurrences that in which both, DNA sequences of up-regulated retrotransposon and gene, are overlapped and have the same sense of transcription. / A toxidez por ferro em plantas está associada com a presença de grandes concentrações de ferro (Fe) reduzido (Fe2+) na solução do solo, esta condição pode ocorrer em solos irrigados por inundação. Os sintomas de toxidez por ferro incluem estresse oxidativo nas folhas como resultado do excesso de Fe2+ absorvido pelas raízes, resultando em perdas na produtividade. As respostas das plantas às condições de estresse envolvem a percepção dos estímulos, transdução de sinais e ativação da transcrição gênica. Além da expressão gênica, os LTR retrotransposons (Long Terminal Repeat Retrotransposons) que respresentam cerca de 20% do genoma do arroz, podem ser transcricionalmente ativados em condições de estresse e desta forma, influenciar a expressão de genes adjacentes (por exemplo devido a alterações na estrutura da cromatina). Este estudo teve por objetivo identificar genes e LTR retrotransposons diferencialmente expressos em plântulas de arroz (Oryza sativa ssp. japonica cv. Nipponbare), após quatro dias de exposição ao excesso de ferro em solução nutritiva. A expressão diferencial de genes e LTR retrotransposons foi analisada utilizando a técnica de microarranjo e sua validação foi realizada por meio de RT-qPCR. O RNA total foi extraído de folhas de plântulas de arroz cv. Nipponbare, após quatro dias de cultivo em solução nutritiva adicionada de ferro na concentração de 7 mM (FeSO47H2O) (presença de toxidez) e a condição controle com presença de ferro na concentração de 10 μM. O cDNA fita dupla foi sintetitizado a partir do RNA mensageiro. A hibridização foi realizada entre o cDNA das duas condições em triplicatas biológicas e o microarranjo Rice Transposome Array v. 2.0 (Roche/NimbleGen technology, an improvement of v.1.0, Picault et al., 2009). Os valores de intensidade de cada spot foram normalizados, transformados e comparados pelo teste T Bayesiano. A identificação dos genes e LTR retrotransposons foi realizada de acordo com o banco de dados RAP-DB (Rice Annotation Project Database, build 5). Considerando log2 FC (log2-fold-change) ≤ -1 como subexpressão e ≥ 1 como superexpressão e P≤ 0.05 para ambas condições. Foram identificados 44 genes subexpressos e 1.572 superexpressos com funções descritas. Os genes subexpressos desempenham a uma vasta gama de funções. Entre elas destacam-se: 166 genes que são fatores de transcrição, sendo que os mais representativos pertencem à família Zinc finger RING/FYVE/PHD-type family (22 genes) e WRKY (19 genes); outros genes da família das cinases que participam também da sinalização celular em processos biológicos de fosforilação de aminoácidos nas proteínas (86 genes); outros genes com função molecular de ligação ao íon ferro (56 genes); 26 genes envolvidos na resposta ao estresse oxidativo (scavengers de espécies reativas de oxigênio); 84 genes com função molecular de transporte, incluindo quatro genes relacionados ao transporte e detoxificação de metais pesados e quatro genes da família MATE; 14 genes envolvidos em apoptose, incluindo 10 genes NB-ARC. Entre os genes superexpressos, 435 apresentam pelo menos um elemento regulatório de ação cis responsivo ao ácido abscisico (ABA) com ocorrência significativa (P≤0,05) em sua região promotora (1 kbp a montante do sítio de início da transcrição). Estes dados indicam que cerca de 28% dos genes superexpressos podem ser regulados pelas alterações no conteúdo de ABA nas folhas, em resposta ao estresse por excesso de ferro. Considerando a expressão do LTR retrotransposons, 302 apresentaram subexpressão (53 Ty1/Copia, 172 Ty3/Gypsy e 77 não classificados), e 4.342 apresentaram superexpressão (466 Ty1/Copia, 2276 Ty3/Gypsy e 1600 não classificados). Foi constatada grande atividade transcricional dos LTR retrotransposons em resposta à toxidez por ferro, sendo que a transcrição dos LTR retrotransposons pode se estender às suas regiões flanqueadoras 5 e 3 , além disso foram encontradas 16 ocorrencias em que o LTR retrotransposon e o gene superexpresso estão localizados a uma distância menor do que 1000 pares de bases no mesmo cromossomo, sugerindo co-transcrição entre ambos. Entre as 16 ocorrências, oito em que o LTR retrotransposon e o gene apresentam o mesmo sentido de transcrição (plus); cinco ocorrências com mesmo sentido de transcrição (minus) e uma ocorrência onde LTR retrotrotransposon e gene apresentam sentidos de transcrição opostos. Foram observadas ainda, duas ocorrências em que as sequencias de DNA do LTR retrotransposon e do gene superexpressos estão sobrepostas, e apresentam o mesmo sentido de transcrição. Nipponbare Toxidez por ferro Estresse oxidativo Cascata de sinalização Elementos regulatórios de ação cis Ácido abscísico Nipponbare Iron toxicity Oxidative stress Cis-regulatory elements Signaling cascade Cis-regulatory elements Abscisic acid CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
16	Impact fonctionnel de l' oncogène TLX3 sur la thymopoïse dans les leucémies aiguës lymphoblastiques T . / Functional impact of the TLX3 oncogene on T-cell development in T-cell acute lymphoblastic leukemia Kazheunikava, Larysa 27 September 2012 (has links) Les membres de la famille Homeobox jouent un rôle critique dans le développement hématopoïétique normal. L'expression ectopique des gènes Homeobox provoque des désordres dans l'hématopoïèse et le développement de leucémies. L'oncogène TLX3 s'exprime de manière ectopique exclusivement dans les Leucémies Aiguës Lymphoblastiques T (LAL-T), avec un blocage des thymocytes à un stade de différentiation précoce cortical CD4+CD8+ DP. De nombreuses études ont investigué les mécanismes d'action des oncogènes TLX1/3, mais plusieurs questions restent en suspens. Durant ma thèse, j'ai étudié l'impact de l'expression ectopique de l'oncogène TLX3 sur le développement lymphocytaire T et les mécanismes de transformation leucémique associés. L'expression de TLX3 a provoqué le blocage des thymocytes à un stade DN2 avec une immortalisation des clones preleucémiques. Les souris transplantées avec les cellules TLX3 ont développé des tumeurs similaires aux LAL-T. Les analyses de ChIP-Seq et d'expression génique ont identifié un recrutement de TLX3 sur les enhancers spécifiques aux cellules T par le motif de fixation Ets/Runx1. Nos résultats suggèrent que la fixation de TLX3 sur les éléments cis-régulateurs peut contribuer à la transformation maligne des thymocytes en perturbant les réseaux transcriptionnels responsables de l'oncogenèse LAL-T. / It is now well established that members of the homeobox gene family play a critical role in normal hematopoietic cell development and that their unbalanced or ectopic expression can lead to characteristic perturbations in haemopoiesis and the onset of leukaemia. TLX3 expression in human haematologic malignancies is exclusive to T-ALL, where it is almost universally associated with transformation of early cortical CD4+CD8+ DP thymocytes. Multiple studies intensively investigated the mechanisms by which TLX1/3 oncogenes could promote complex tumor development, but many questions remain still unclear. During my thesis I investigated the impact of ectopic TLX3 expression on T cell development, and the initiating mechanisms of T-cell transformation leading to leukemia onset. Forced expression of TLX3 disrupted the thymic develoment at DN2-like stage giving rise to immortalized preleukemic clones. Following the transfer into immunodeficient mice TLX3 preleukemic cells initiated malignant cell transformation resulting into leukemia-like disease. Applying a combination of ChIP sequencing and gene expression profiling, we identified TLX3 recruitment onto T-cell specific enhancers via interaction with Ets1/Runx1 composite motif sites as preferential molecular events in the initial steps of TLX3-induced transformation. Thus our findings suggest that the genome-wide binding properties of TLX3 on cis-regulatory elements may contribute to its ability to promote thymocyte preleukaemic state via perturbation of transcriptional regulatory networks responsible for T-ALL oncogenesis. Lal-t TLX3 proto-oncogène Développement lymphocytaire T Facteur de transcription Ets1 Runx1 Enhancers Éléments cis-régulateurs T-all TLX3 proto-oncogene T-cell development Transcription factor Ets1 Runx1 Enhancers Cis-regulatory elements
17	Gene regulatory factors in the evolutionary history of humans: Gene Regulatory Factors, key genes in the evolutionary history of modern humans: Positive selection on GRF genes as source for regulatory diversity in human populations: Human lineage‐specific transcriptional regulation through GA binding protein transcription factor alpha (GABPa) Perdomo-Sabogal, Alvaro 24 August 2016 (has links) Changes in cis- and trans-regulatory elements are among the prime sources of genetic and phenotypical variation at species level. The introduction of cis- and trans- regulatory variation has played important roles in driving diversity, phenotypical differentiation, and evolution of humans. Therefore, variation that occurs on cis- and trans- regulatory elements becomes imperative to better understanding of human genetic diversity and its evolution. In this research, around 3360 gene regulatory factors (GRF) from the human genome were catalogued. This catalog includes genes that code for proteins that perform gene regulatory activities such DNA-depending transcription, RNA polymerase II transcription cofactor and co-repressor activity, chromatin binding and remodeling, among other 218 regulatory functions. This GRF catalog allowed us to initially explore how some GRF genes have evolved in humans, archaic humans (Neandertal and Denisovan) and non-human primate species. We discussed the likely phenotypical and medical effects that evolutionary changes in GRF genes may have introduced into the human genome; for instance, traits associated to speech and language capabilities, genomic recombination hotspots, diseases, among others. By using genome-wide datasets, we additionally looked for GRFs likely to be candidates for positive selection in three human populations: Utah Residents with Northern and Western Ancestry (CEU), Han Chinese in Beijing (CHB), and Yoruba in Ibadan (YRI). As result, we produced a set of candidates that gathers genes that may have contributed in shaping the phenotypical diversity currently observed in these populations; for instance, by introducing regulatory diversity at population-specific level. We additionally identified six GRF classes enriched for genes located in regions that are likely candidates for positive selection at population specific level. We found that out of the 41 DNA-binding GRF classes classified so far, six groups exhibited enrichment for genes located on regions that may have been under positive selection: C2H2 zinc finger, KRAB-ZNF zinc finger, Homeo domain, Tryptophan cluster, Fork head/winged helix and, and High-mobility HMG domain. We additionally identified three KRAB-ZNF gene clusters, in the chromosomes one, three, and 16, for the Asian population that exhibit regions with extended haplotype homozygosity EHH (larger than 100 kb). This EHH suggests that these regions have undergone positive selection in CHB population. Finally, considering that a representative fraction of the phenotypic diversity observed between humans and its closely related species are likely explained by changes in cis-regulatory elements (CREs), we investigated putative binding sites for the transcription factor GABPa. Using ChIP-Seq data generated from a human cell line (HEK293T), 11,619 putative GABPa CREs were found, Out of which 224 are putative human-specific. To experimentally validate the transcriptional activity of these human-specific CREs, reporter gene essays and knock-down experiments were performed. Our results supported the functionality of these human-specific GABPa CREs and suggest that at least 1,215 genes are primary targets of GABPa. Finally, further analyses depict scenarios that put together transcriptional regulation by GABPa and the evolution of particular human traits; for instance, cognitive abilities, breast morphology, lipids and glucose metabolic pathways, among others. info:eu-repo/classification/ddc/000 ddc:000
18	Characterization of cis-regulatory elements via open chromatin profiling Karabacak Calviello, Aslihan 11 September 2019 (has links) Cis-regulatorische Elemente wie Promotoren und Enhancer, die die Regulation der Transkription von Genen steuern, befinden sich in Regionen des dekondensierten Chromatins. DNase-seq und ATAC-seq sind weit verbreitete Verfahren, um solche offenen Chromatinregionen genomweit zu untersuchen. Die einzel-Nukleotid-Auflösung von DNase-seq wurde des Weiteren genutzt, um Transkriptionsfaktor-Bindungsstellen (TFBS) in regulatorischen Regionen durch TF-Footprinting zu bestimmen. Kürzlich durchgeführte Studien haben jedoch gezeigt, dass DNase I einen Sequenzbias aufweist, welcher nachteilige Auswirkungen auf die Footprinting-Effizienz hat. Auch wurden das Footprinting und die Auswirkungen des Sequenzbias auf ATAC-seq noch nicht umfassend untersucht. In dieser Arbeit nehme ich einen systematischen Vergleich der beiden Methoden vor und zeige, dass die beiden Methoden unterschiedliche Sequenzbiases haben und korrigiere diese protokollspezifischen Biases beim Footprinting. Der Einfluss von Bias-Korrekturen der Footprinting Ergebnisse ist für DNase-seq größer als für ATAC-seq, und Footprinting mit DNase-seq führt zu besseren Ergebnissen in unserer Datensätze. Trotz dieser Unterschiede zeige ich, dass die Integration replizierter Experimente die Ableitung von qualitativ hochwertigen Footprints ermöglicht, wobei die beiden Techniken weitgehend übereinstimmen. Diese Techniken werden ferner eingesetzt, um die cis-regulatorischen Elemente zu charakterisieren, die die Embryogenese der Fruchtfliege Drosophila melanogaster bestimmen. Durch die Verwendung von Embryonen die sich im richtigen Entwicklungsstadium befinden, sowie gewebespezifischer Kernsortierung mit offenem Chromatin-Profiling können zeitlich und gewebespezifisch aufgelöste vermeintliche cis-regulatorische Elemente definiert werden. Zusammengenommen demonstrieren diese Analysen die Fähigkeit der offenen Chromatin-Profilierung und der Computeranalyse zur Aufklärung der Mechanismen der Genregulation. / Cis-regulatory elements such as promoters and enhancers, that govern transcriptional gene regulation, reside in regions of open chromatin. DNase-seq and ATAC-seq are broadly used methods to assay open chromatin regions genome-wide. The single nucleotide resolution of DNase-seq has been further exploited to infer transcription factor binding sites (TFBS) in regulatory regions through TF footprinting. However, recent studies have demonstrated the sequence bias of DNase I and its adverse effects on footprinting efficiency. Furthermore, footprinting and the impact of sequence bias have not been extensively studied for ATAC-seq. In this thesis, I undertake a systematic comparison of the two methods and demonstrate that the two methods have distinct sequence biases and correct for these protocol-specific biases when performing footprinting. The impact of bias correction on footprinting performance is greater for DNase-seq than for ATAC-seq, and footprinting with DNase-seq leads to better performance in our datasets. Despite these differences, I show that integrating replicate experiments allows the inference of high-quality footprints, with substantial agreement between the two techniques. These techniques are further employed to characterize the cis-regulatory elements governing the embryogenesis of a complex organism, the fruit fly Drosophila melanogaster. Combining tight staging of embryos and tissue-specific nuclear sorting with open chromatin profiling, enables the definition of temporally and tissue-specifically resolved putative cis-regulatory elements. Taken together, these analyses demonstrate the power of open chromatin profiling and computational analysis in elucidating the mechanisms of transcriptional gene regulation. Cis-regulatorische Elemente DNase-seq ATAC-seq Dekondensierten Chromatin Cis-regulatory elements DNase-seq ATAC-seq Open chromatin 570 Biowissenschaften; Biologie WC 4460 WE 4500 WG 1940 ddc:570
19	Análise in silico de regiões promotoras de genes de Xylella fastidiosa / In silico analysis on promoter sequences of protein-coding genes from Xylella fastidiosa Tria, Fernando Domingues Kümmel 24 June 2013 (has links) Xylella fastidiosa é uma bactéria gram-negativa, não flagelada, agente causal de doenças de importância econômica como a doença de Pierce nas videiras e a clorose variegada dos citros (CVC) nas laranjeiras. O objetivo do presente trabalho foi realizar análises in silico das sequências promotoras dos genes deste fitopatógeno em uma tentativa de arrecadar novas evidências para o melhor entendimento da dinâmica de regulação transcricional de seus genes, incluindo aqueles envolvidos em mecanismos de patogenicidade e virulência. Para tanto, duas estratégias foram utilizadas para predição de elementos cis-regulatórios em regiões promotoras do genoma da cepa referência 9a5c, comprovadamente associada à CVC. A primeira, conhecida como phylogenetic footprinting, foi empregada para identificação de elementos regulatórios conservados em promotores de unidades transcricionais ortólogas, levando em consideração o conjunto de genes de X. fastidiosa e 7 espécies comparativas. O critério para identificação de unidades transcricionais ortólogas, isto é, unidades trancricionais oriundas de espécies distintas e cujos promotores compartilham elementos cis-regulatórios, foi paralelamente estudado utilizando-se informações regulatórias das bactérias modelos: Pseudomonas aeruginosa, Bacillus subtilis e Escherichia coli. Os resultados obtidos com análise de phylogenetic footprinting nos permitiu acessar a rede regulatória transcricional da espécie de forma compreensiva (global). Foram estabelecidas 2990 interações regulatórias, compreendendo 80 motivos distribuídos nos promotores de 56.8% das unidades transcricionais do genoma de X. fastidiosa. Na segunda estratégia recuperamos informações regulatórias experimentalmente validadas em E. coli e complementamos o conhecimento de dez regulons de X. fastidiosa, através de uma metodologia de scanning (varredura), dos quais algumas interações regulatórias já haviam sido previamente descritas por outros trabalhos. Destacamos os regulons de Fur e CRP, reguladores transcricionais globais, que se mostraram responsáveis pela modulação de genes relacionados a mecanismos de invasão e colonização do hospedeiro vegetal entre outros. Por fim, análises comparativas em regiões regulatórias correspondentes entre cepas foram realizadas e diferenças possivelmente associadas a particularidades fenotípicas foram identificadas entre 9a5c e J1a12, um isolado de citros não virulento, e 9a5c e Temecula1, um isolado de videira causador da doença de Pierce. / Xylella fastidiosa is a gram-negative, non-flagellated bacterium responsible for causing economically important diseases such as Pierce\'s disease in grapevines and Citrus Variegated Clorosis (CVC) in sweet orange trees. In the present work we performed in silico analysis on promoter sequences of protein-coding genes from this phytopathogen, including those involved in virulence and pathogenic mechanisms, in an attempt to better understand the underlying transcriptional regulatory dynamics. Two strategies for cis-regulatory elements prediction were applied on promoter sequences from 9a5c strain genome, a proven causal agent of CVC. The first one, known as phylogenetic footprinting, involved the prediction of regulatory motifs conserved on promoter sequences of orthologous transcription units from X. fastidiosa and a set of 7 comparatives species. The criteria to identify orthologous transcription units, i. e., those from different species and whose promoter sequences share at least one common regulatory motif, was studied based on regulatory information available for model organisms: Pseudomonas aeruginosa, Bacillus subtilis and Escherichia coli. The results obtained with the phylogenetic footprinting analysis permitted us to access the underlying transcriptional regulatory network from the species in a comprehensive manner (genome-wide), with a total of 2990 regulatory interactions corresponding to 80 predicted motifs distributed on promoter sequences of 56.8% of all transcription units. In the second strategy regulatory information from E. coli was recovered and used to expand the knowledge of ten regulons in X. fastidiosa, through a scanning process, of which some regulatory interactions were previously described by independent studies. We emphasize some genes related to host invasion and colonization present in the Fur and CRP regulons, two global transcription regulators. Lastly, comparative analysis on corresponding regulatory regions among strains were performed and differences possibly associated to phenotypic variation were identified between 9a5c and J1a12, a non-virulent strain isolated from orange trees, and between 9a5c and Temecula1, a strain associated to Pierce\'s disease on grapevines. Citrus Variegated Chlorosis Clorose Variegada do Citros doença de Pierce fitopatógeno motivos regulatórios Pierce's Disease plant pathogen promoters promotores regulatory motifs regulon regulon Xylella fastidiosa Xylella fastidiosa
20	Validation of de novo Bioinformatic Predictions of Arabidopsis thaliana Cis-regulatory Elements using in planta GUS Expression Assays Hiu, Shuxian 19 July 2012 (has links) The study of cis-regulatory elements (CREs) will allow for increased understanding of regulation and lead to insight regarding the mechanisms governing growth, development, health, and disease. The aim of this study was to characterize the de novo in silico predictions of Arabidopsis CREs. Eight synthetic and 30 native promoter-constructs containing an eGFP/GUS reporter protein were generated for cold, genotoxic, heat, osmotic, and salt stress; the circadian clock; ABA signaling; root and epidermis tissue. Constructs were stably transformed into A. thaliana Col-0 and the effects of the CREs were evaluated by in planta stress or tissue assays using GUS expression levels. Results reveal a novel genotoxic element that specifically directs GUS expression in rosette leaves during genotoxic stress. Results also look promising for novel epidermis and root-specific elements. Results of these assays validate the de novo prediction pipeline's ability to identify novel and known CREs related to abiotic stress. cis-regulatory elements bioinformatics GUS cold stress enhancer silencer insulator local control regions (LCRs) MARs/SARs in planta evening element circadian rhythm arabidopsis genotoxic bleomycin mitomycin c heat stress stem epidermis root abscisic acid (ABA) osmotic stress salt stress synthetic constructs expression assays transcription factor binding sites CaMV35S columbia-0 0306 0715 0309 0379 0307

Search results