Global ETD Search

311	Análise estrutural e funcional da região promotora de rDNA de Leishmania (Viannia) braziliensis e estudo comparativo com as regiões de Leishmania (Leishmania) / Structural and functional caracterization of rDNA promoter region of Leishmania (Viannia) braziliensis and comparative study with the Leishmania (Leishmania) region Nassar, Maira Natali 08 May 2009 (has links) Um conjunto de quadros clínicos conhecidos genericamente por Leishmaniose, que representa um sério problema de Saúde Pública, tem como agentes etiológicos protozoários do gênero Leishmania. Em seu ciclo de vida, o parasita apresenta dois hospedeiros, um vertebrado e um invertebrado. O gênero Leishmania é dividido em dois subgêneros: Leishmania (Leishmania) e LeishmaniaViannia), de acordo com a posição ocupada pela forma promastigota no tubo digestivo do hospedeiro invertebrado. Genes que codificam RNA ribossômico são exclusivamente transcritos pela RNA polimerase I. A região promotora dessa polimerase é conhecida como espécie-específica. Estudos anteriores, baseados em ensaios de expressão transiente com construções nas quais a expressão do gene repórter CAT era dirigido por diferentes regiões do promotor mostraram que em Leishmania há um reconhecimento espécie-específico, mas que espécies filogeneticamente relacionadas reconhecem melhor o promotor do que a espécie homóloga. A caracterização estrutural da região promotora de RNA pol I de L. (V.) braziliensis possibilitou mapear o sítio de início de transcrição e definir a provável região promotora de RNA pol I desse organismo. Quando comparamos o 5´ ETS da região estudada, com a região correspondente das demais espécies do subgênero L. (Leishmania), notamos uma alta similaridade tanto no tamanho, quanto na seqüência de nucleotídeos. Já na região IGS os blocos de repetição apresentam tamanho similar, porém seqüências distintas, assim como a seqüência à montante do ETS. Não foi determinado o número de blocos de repetição presente em cada cístron de L.(V.) braziliensis. Os estudos de ligação de fatores nucleares à região central do promotor mostraram que houve um reconhecimento diferencial dessa região entre a espécie homóloga L. (V.) braziliensis e as espécies heterólogas L. (V.) guyanensis, pertencente ao mesmo subgênero e L. (L.) amazonenis. Os complexos protéicos associados a essa região central apresentaram maior afinidade com a espécie heteróloga L. (V.) guyanensis. O fato de ser o ensaio de CAT trabalhoso e demorado levou à busca de outro repórter que evidenciasse a funcionalidade da região promotora ao mesmo tempo em que permitisse a quantificação dessa expressão, de modo a medir a força do promotor. Neste trabalho iniciamos a padronização para utilizar GFP como gene repórter no estudo da funcionalidade de promotores. Foi possível mostrar que a GFP é detectável em microscopia confocal e que as células que expressam GFP podem ser quantificadas em FACS, no entanto, essas detecções só foram possíveis em parasitas selecionados por uma marca de seleção, ou seja, numa transfecção estável. Assim, substituir o gene repórter CAT pelo gene GFP foi inadequado para os ensaios de transfecção transiente, impedindo que fosse medida a atividade da região promotora de L. (V.) braziliensis em diferentes espécies. / Leishmaniasis is the generic name of a serious public health problem that is caused by protozoa of the genus Leishmania. In its lifecycle, the parasite has two hosts, a vertebrate and an invertebrate. The genus Leishmania is divided into two subgenera: Leishmania (Leishmania) and Leishmania (Vianna), according to the position occupied by the promastigotes form at the gut of the invertebrate host. Genes that encode ribosomal RNA are exclusively transcribed by RNA polymerase I. The promoter region of the RNA polymerase I is known to present a species-specific recognition. Previous studies, based on transient expression assays with constructions in which the expression of the reporter gene CAT was directed by different regions of the promoter showed that RNA pol I promoter in Leishmania is species-specific, but in phylogenetically related species the expression of the reporter gene is higher than in the homologous species. The structural characterization of the promoter region of RNA pol I of L. (V.) braziliensis enabled to map the site of initiation of transcription and to define the promoter region of RNA pol I. The comparison of the determined 5\' region of the ETS region, with the corresponding region of other species of the subgenus L. (Leishmania), showed a high similarity both in size, as in the sequence of nucleotides. However, the IGS region and the repetitive blocks of nucleotides have similar size but different sequences. The studies of binding of nuclear factors to the central region of the promoter showed that there was a recognition between the species counterpart L. (V.) braziliensis and the heterologous species L. (V.) guyanensis, belonging to the same subgenus and L. (L.) amazonensis, that belongs to another subgenus. The complex protein associated with this central region showed greater affinity with the heterologous species L. (V.) guyanensis. The fact that to quantify the CAT expression represents a laborious and time consuming test lead us to search for another reporter that could identified the functionality of the promoter region and at the same time allowed the quantification of expression in order to measure the strength of the promoter. In the present work, we began the standardization for the use of GFP gene as reporter in the study of the functionality of promoters. It was possible to show that GFP is detectable in confocal microscope and the cells that express GFP can be quantified in FACS, however, these findings were made possible only in parasites selected by the mark, ie in a stable transfection. So, the replacement of CAT by GFP reporter showed to be inadequate for testing promoters in transient transfection. This prevented the measure of the activity of the promoter region of L. (V.) braziliensis in different species. Expressão gênica Fatores de transcrição Genetic expression Leishmania braziliensis Leishmania braziliensis Promoter Promotor RNA polimerase I RNA polymerase I Transcription factor
312	Reporter-based Synthetic Genetic Analysis of Budding Yeast Reveals Novel MMS-induced Effectors of the RNR3 Promoter Elnour, Nada January 2016 (has links) The DNA damage response is a cell-wide response that coordinates repair and cell-cycle progression. Crucial to fidelity of genetic propagation, survival, and apoptosis, dysfunctions in the response are at the root of genome instability syndromes and cancer predisposition in mammalian cells. Within the response lie hubs of coordination, called checkpoints, whose members and organization are ubiquitous amongst eukaryotes. The high conservation of these checkpoints enable the study of their dynamics by proxy via simpler model organisms. We use the budding yeast, Saccharomyces cerevisiae, to study the replication and DNA damage checkpoints --- both implicated in DNA damage repair. Using a yEGFP reporter driven by the RNR3 promoter and reporter-based synthetic genetic array analysis, we created a detector of potential checkpoint activation in response to two doses of MMS, 0.015% and 0.060% (v/v). The high-throughput screens and differential epistasis miniarray analyses (EMAPs) yield unanticipated involvement of oxidative stress response, ribosomal biogenesis, and chromatin remodelling genes. Reporter synthetic genetic array Flow cytometry RNR3 promoter DNA damage response High-throughput screen Methyl methanesulfonate Differential EMAP Chemogenetic screen
313	Adenovirus-mediated CD40 Ligand Immunotherapy of Prostate and Bladder Cancer Dzojic, Helena January 2007 (has links) <p>Cancer immunotherapy aims at reversing the immunosuppressive tumor environment and enhancing anti-tumor immunity. This thesis comprises studies on murine models for prostate (TRAMP-C2) and bladder (MB49) cancer with the aim to explore if the introduction of an adenoviral vector expressing CD40 ligand (AdCD40L) can induce anti-tumor immune responses.</p><p>We show in subcutaneous mouse models that AdCD40L treatment suppresses tumor growth. Bladder cancer is known to secrete immunosuppressive IL-10 which may inhibit T cell function. We show that introducing AdCD40L into mouse bladder tumors inhibits IL-10 production and reverses immunosuppression. AdCD40L-transduced mouse prostate cancer cells showed caspase activation and reduced cell viability. Vaccination with CD40L-modified prostate cancer cells induces anti-tumor responses and protects mice against rechallenge with native TRAMP-C2 cells. In order to enhance AdCD40L therapy, we explored the possibility of combining it with the histone deacetylase inhibitor FK228, also known as depsipeptide. We show that FK228 upregulates coxsackie and adenovirus receptor expression and thereby enhances adenoviral-mediated CD40L expression in both murine and human prostate cancer cells. Increasing amounts of FK228 or AdCD40L reduces prostate cancer cell viability, while the combined treatment gives at least an additive therapeutic effect. Moreover, we show that AdCD40L transduction of prostate cancer cells induces endogenous CD40 expression and sensitize them for CD40L-mediated therapy.</p><p>In order to conduct prostate-specific gene therapy, prostate-specific promoters can be used to drive transgene expression. However, there are no reports on prostate-specific promoters that are transcriptionally active in mouse cells. Here we show that by using the two-step transcription activation system (TSTA), we can enhance the activity of a recombinant human promoter sequence and obtain activity in mouse prostate cancer cells as well. This finding paves the way for future studies of prostate-specific gene therapy in immunocompetent mouse models.</p> Medicine immunotherapy gene therapy prostate cancer bladder cancer adenoviral vector CD40 ligand promoter PPT TSTA depsipeptide FK228 TRAMP-C2 Medicin
314	The functional role of the Drosophila gypsy insulator in the regulation of gene expression Kang, Hyuck Joon 01 May 2010 (has links) Chromatin insulators are short DNA sequences that, together with enhancers and silencers, orchestrate gene transcription through DNA-protein interactions in eukaryotic genomes. It has been proposed that insulators operate at the chromatin level by generating functionally independent higher-order chromatin domains. Insulators may maintain the integrity of such domains using two properties: blocking enhancer-promoter interactions and blocking heterochromatin spreading. The gypsy insulator of Drosophila was identified as a region of the gypsy retrovirus responsible for the production of tissue-specific mutations in many genes. The Suppressor of Hairy wing [Su(Hw)] protein contains 12 zinc fingers that specifically bind the gypsy insulator. Upon DNA binding, Su(Hw) recruits a second protein, Modifier of Mdg4 67.2 [Mod(mdg4) 67.2], and the interaction of both proteins is required for insulator function in vivo. We have found that three different arrays of gypsy retrovirus insertions in a yellow transgene result in unique yellow phenotypes, showing that the enhancer-blocking activity of the Drosophila gypsy insulators depends on the relative orientation of the gypsy retroviruses on the chromosome. We also observed from transgenic lines with gypsy retrovirus or insulator insertions that interaction of insulators may be regulated by active enhancers according to the relative positions of the insulators flanking the enhancers. Moreover, we show that gypsy insulators can positively modulate yellow activation and result in wild-type levels of expression when placed upstream of enhancers in yellow transgenes in which enhancers are placed out of context by &#;-DNA spacers and fail to reproduce the expression levels of yellow in wings and body cuticle. Our results provide evidence indicating that this phenomenon is independent of the boundary activity. Genetic analysis using mod(mdg4)67.2 mutant lines containing gypsy retrovirus insertions revealed that the gypsy insulator may be placed close to the yellow promoter region and be intimately involved in transcriptional activation and repression. Therefore, we suggest that insulators may also function by mediating long range interactions between enhancers and promoters. gypsy retrovirus insulator Su(Hw) Mod(mdg4) independent chromatin loop domain enhancer-promoter interaction Genetics Molecular genetics
315	Functional analysis of the mouse RBBP6 gene using Interference RNA. Pretorius, Ashley. January 2007 (has links) <p>The aim of this thesis was to investigate the cellular role of the mouse RBBP6 gene using the interference RNA (RNAi) gene targeting technology and also to understand the relevance of two promoters for the RBBP6 gene.</p> Apoptosis Real-Time qRT-PCR Cell cycle Interference RNA (RNAi) Homologous recombination Promoter p53 Retinoblastoma PACT RBBP6.
316	Incidence and Regulatory Implications of Single Nucleotide Polymorphisms among Established Ovarian Cancer Genes. Ramdayal, Kavisha. January 2009 (has links) <p>OVARIAN cancer research focuses on answering important questions related to the disease, determining whether new approaches are feasible to contribute towards improving current treatments or discovering new ones. This study focused on the transcriptional regulation of genes that have been implicated in ovarian cancer, based on the occurrences of single nucleotide polymorphisms (SNPs) within transcription factor binding sites (TFBSs). Through the application of several in silico tools, databases and custom programs, this research aimed to contribute toward the identification of potentially bio-medically important genes or SNPs for pre-diagnosis and subsequent treatment planning of ovarian cancer. A total of 379 candidate genes that have been experimentally associated with ovarian cancer were analyzed. This led to the identification of 121 SNPs that were found to coincide with putative TFBSs potentially influencing a total of 57 transcription factors that would normally bind to these TFBSs. These SNPs with potential phenotypic effect were then evaluated among several population groups, defined by the International HapMap consortium resulting in the identification of three SNPs present in five or more of the eleven population groups that have been sampled.</p> Ovarian cancer Susceptibility Single nucleotide polymorphism SNP@Promoter F-SNP PupaSuite Transcription factor binding site Transcription factor MATCHTM HapMap Allele.
317	Adenovirus-mediated CD40 Ligand Immunotherapy of Prostate and Bladder Cancer Dzojic, Helena January 2007 (has links) Cancer immunotherapy aims at reversing the immunosuppressive tumor environment and enhancing anti-tumor immunity. This thesis comprises studies on murine models for prostate (TRAMP-C2) and bladder (MB49) cancer with the aim to explore if the introduction of an adenoviral vector expressing CD40 ligand (AdCD40L) can induce anti-tumor immune responses. We show in subcutaneous mouse models that AdCD40L treatment suppresses tumor growth. Bladder cancer is known to secrete immunosuppressive IL-10 which may inhibit T cell function. We show that introducing AdCD40L into mouse bladder tumors inhibits IL-10 production and reverses immunosuppression. AdCD40L-transduced mouse prostate cancer cells showed caspase activation and reduced cell viability. Vaccination with CD40L-modified prostate cancer cells induces anti-tumor responses and protects mice against rechallenge with native TRAMP-C2 cells. In order to enhance AdCD40L therapy, we explored the possibility of combining it with the histone deacetylase inhibitor FK228, also known as depsipeptide. We show that FK228 upregulates coxsackie and adenovirus receptor expression and thereby enhances adenoviral-mediated CD40L expression in both murine and human prostate cancer cells. Increasing amounts of FK228 or AdCD40L reduces prostate cancer cell viability, while the combined treatment gives at least an additive therapeutic effect. Moreover, we show that AdCD40L transduction of prostate cancer cells induces endogenous CD40 expression and sensitize them for CD40L-mediated therapy. In order to conduct prostate-specific gene therapy, prostate-specific promoters can be used to drive transgene expression. However, there are no reports on prostate-specific promoters that are transcriptionally active in mouse cells. Here we show that by using the two-step transcription activation system (TSTA), we can enhance the activity of a recombinant human promoter sequence and obtain activity in mouse prostate cancer cells as well. This finding paves the way for future studies of prostate-specific gene therapy in immunocompetent mouse models. Medicine immunotherapy gene therapy prostate cancer bladder cancer adenoviral vector CD40 ligand promoter PPT TSTA depsipeptide FK228 TRAMP-C2 Medicin
318	Development of an Enzyme Immunoassay and Cellular Function Assays to Probe the Function of Teneurin C-terminal Associated Peptide (TCAP) Nock, Tanya Gwendolyn 06 April 2010 (has links) The teneurin C-terminal associated peptides (TCAP) are a family of four predicted peptides that are expressed in all metazoans where the teneurins have been studied to date. Of the four peptides, TCAP-1 has been studied most extensively. In vitro, TCAP-1 increases neuronal proliferation and neurite outgrowth. In vivo, the peptide reduces CRF-induced behavioural responses in rats. Despite the large body of evidence indicating a strong biological role for TCAP-1, little is known about the chemistry and solubility of the peptide, or the signaling pathway(s) mediating these effects. The aim of this research was to appropriately solubilize the peptide and to develop detection assays for its study in greater detail. I have now established an appropriate formulation of TCAP-1 and developed an immunoassay to assess its concentrations in tissues and in circulation. Also, by examining a number of transcriptional response elements, I have found two assays for probing the signal transduction mechanisms of this peptide. ELISA reporter TCAP teneurin cFos solubility solution immunoassay peptide signal transduction neuron promoter element 0309 0307 0306
319	Development of an Enzyme Immunoassay and Cellular Function Assays to Probe the Function of Teneurin C-terminal Associated Peptide (TCAP) Nock, Tanya Gwendolyn 06 April 2010 (has links) The teneurin C-terminal associated peptides (TCAP) are a family of four predicted peptides that are expressed in all metazoans where the teneurins have been studied to date. Of the four peptides, TCAP-1 has been studied most extensively. In vitro, TCAP-1 increases neuronal proliferation and neurite outgrowth. In vivo, the peptide reduces CRF-induced behavioural responses in rats. Despite the large body of evidence indicating a strong biological role for TCAP-1, little is known about the chemistry and solubility of the peptide, or the signaling pathway(s) mediating these effects. The aim of this research was to appropriately solubilize the peptide and to develop detection assays for its study in greater detail. I have now established an appropriate formulation of TCAP-1 and developed an immunoassay to assess its concentrations in tissues and in circulation. Also, by examining a number of transcriptional response elements, I have found two assays for probing the signal transduction mechanisms of this peptide. ELISA reporter TCAP teneurin cFos solubility solution immunoassay peptide signal transduction neuron promoter element 0309 0307 0306
320	Characterization and expression patterns of five Winter Rye β-1,3-endoglucanases and their role in cold acclimation McCabe, Shauna January 2007 (has links) Winter rye produces ice-modifying antifreeze proteins upon cold treatment. Two of these antifreeze proteins are members of the large, highly conserved, β-1,3-endoglucanase family. This project was designed to identify glucanase genes that are expressed during cold acclimation, wounding, pathogen infection, drought or treatment with the phytohormones ethylene and MeJa. Additionally, a more detailed proteomic analysis was to be carried out to evaluate the glucanase content of the apoplast of cold-acclimated (CA) winter rye. Results of 2D SDS-PAGE analysis revealed that non-acclimated whole leaf protein extracts contain at least two β-1,3-endoglucanses while CA whole leaf protein extracts contain at least three β-1,3-endoglucanses. Subsequent 2D SDS-PAGE analysis was conducted on the apoplast extracts of NA and CA winter rye plants revealed the limitations of standard 1D SDS-PAGE. The 2-dimensional gel analysis revealed that there is a minimum of 25 proteins within the apoplast of CA winter rye, including at least 5 β-1,3-endoglucanases. Genome walking was used to isolate cold-responsive glucanase genes. The five genes isolated were designated scGlu6, scGlu9, scGlu10, scGlu11 and scGlu12. The cis-element pattern within the promoter of each gene was evaluated using online databases of documented plant cis elements. As expected, all of the promoters contained elements associated with cold, biotic and abiotic stresses, light regulation, and development. The expression patterns predicted by the cis elements in each promoter were compared to the mRNA abundance produced by each gene as detected by semi-quantitative reverse transcriptase PCR. In most cases, the abundance of transcripts arising from each gene loosely corresponded to the expression pattern predicted by the cis elements the corresponding promoter. Transcripts of scGlu9, 10 and 11 were present in cold-treated tissues and are candidates for β-1,3-endoglucanases with antifreeze activity. The results presented in this thesis provide additional insight into the apoplast proteome of CA winter rye plants as well as the complexity of the signals controlling the proteins that reside there. Although there are still a number of unresolved questions, this research opens new directions for future studies in the cold acclimation process in winter rye and specifically for the contribution of β -1,3-endoglucanses. antifreeze proteins glucanase promoter cold-acclimation winter rye regulation RT-PCR 2D SDS-PAGE cis-element Biology

Search results