Global ETD Search

251	Osmotic response element binding protein (OREBP) is an essential regulator of urine concentrating mechanism and renal protection Lam, Ka-man, Amy., 林嘉敏. January 2004 (has links) published_or_final_version / abstract / toc / Molecular Biology / Doctoral / Doctor of Philosophy Genetic transcription - Regulation Carrier proteins. Transcription factors. Urine. Kidneys - Physiology. Transgenic mice - Molecular genetics.
252	Computational discovery of cis-regulatory modules in human genome by genome comparison Mok, Kwai-lung., 莫貴龍. January 2008 (has links) published_or_final_version / Biochemistry / Master / Master of Philosophy Binding sites (Biochemistry) Transcription factors. Genetic transcription - Regulation. Human genome. Computational biology.
253	Involvement of NF-kB subunit p65 and retinoic acid receptors RARæ and RXRæ in the transcriptional regulation of the human GnRH II gene Leung, Kin-yue., 梁建裕. January 2005 (has links) published_or_final_version / abstract / Zoology / Master / Master of Philosophy Retinoids - Receptors. Transcription factors. Luteinizing hormone releasing hormone. Genetic regulation. Genetic transcription.
254	A study of the regulatory roles of Hedgehog in the enteric nervous system development by the conditional knockout of Patched1 entericgene in the enteric neural crest cells Poon, Hiu-ching., 潘曉澄. January 2009 (has links) published_or_final_version / Surgery / Doctoral / Doctor of Philosophy Cellular signal transduction. Neural crest. Genetic transcription - Regulation. Nervous system. Neurogenetics.
255	Use of gene probes and an amplification method for the detection of rotaviruses in water De Leon, Ricardo,1957- January 1989 (has links) Rotaviruses are one of the most significant causes of diarrheal disease in the world. Their presence in groundwater and drinking water supplies constitutes a health risk to the population. The study of rotaviruses in the environment has been hampered by the lack of accessible and consistent detection methodologies. Gene probes and other molecular techniques are a novel approach for the detection of these viruses in water. The feasibility of these new techniques for the detection and study of rotaviruses in the environment has been assessed using the simian SA-11 and the culturable human Wa rotavirus strains as models. Two general approaches have been undertaken consisting of hybridization of probes with genomic RNA and hybridization with mRNA produced by the virion-incorporated transcriptase. Hybridization of gene probes with genomic dsRNA of rotaviruses in environmental concentrates resulted in the detection of 10 4 immunofoci of Wa rotavirus. In vitro transcription serves as an amplification method with sensitivity 100- to 1000-fold greater than when probing for genomic RNA. The sensitivity obtained in Wa-seeded distilled water and environmental concentrates after in vitro transcription is 2 and 20 immunofoci, respectively. Proteins in environmental concentrates decrease the efficiency of probe hybridization by 10-100 fold. Also, transcriptase-inhibiting factors found in environmental samples decrease the production of mRNA. Both proteins and transcriptase-inhibiting factors can be reduced significantly with Sephadex G-200 columns. Passage of environmental concentrate through Sephadex G-200 spun columns, followed by in vitro transcription, was used to detect rotaviruses in environmental samples. Rotaviruses were detected by this combination of techniques in eight of 20 sewage samples, one of 16 tap water samples, five of 32 ground water samples, and two of nine surface water samples. Only one of 17 samples which tested positive with Wa cDNA 4 was positive for non-specific probe binding. The probing of rotavirus mRNA, amplified by the virion-incorporated transcriptase, is a practical and feasible method for monitoring these viruses in the environment. Hydrology. Reoviruses. DNA probes. Genetic transcription. Viruses -- Isolation. Water -- Pollution -- Measurement. Viral pollution of water -- Measurement.
256	Organisation de la chromatine et signalisation par les oestrogènes / Impact of the chromatine organization in transcriptional regulation mediated by estrogen receptor Quintin, Justine 06 March 2013 (has links) En réponse à son environnement composé de signaux endogènes et exogènes, une cellule doit pouvoir adapter son transcriptome, et cela à travers une modulation fine de l'expression de ses gènes. Les mécanismes permettant une telle adaptation reposent sur de multiples paramètres, entre autre l'organisation du génome, que ce soit au niveau de sa séquence primaire ou de son organisation au sein de la chromatine qui est un support pour l'intégration de nombreuses informations (structurelles et épigénétiques). De plus, l'organisation tridimensionnelle du noyau cellulaire apporte des contraintes physiques et fonctionnelles qui contribuent également à ces régulations. Afin de comprendre comment toutes ces informations peuvent être intégrées lorsqu'un signal régule la transcription d'un ensemble de gènes colinéaires («cluster» de gènes), nos études se sont focalisées sur la description et dissection des mécanismes impliqués dans la régulation coordonnées de gènes œstrogéno-dépendant par le récepteur aux œstrogènes (ER) et ses facteurs pionniers (FOXA1, FOXA2 et GATAs) dans des cellules cancéreuses d'origine mammaire. Dans ce cadre, nous nous sommes plus particulièrement intéressés au cluster TFF, situé sur le bras long du chromosome 21, incluant le gène modèle TFF1, en utilisant des techniques d'analyse à grande échelle (ChIP-chip, ChIP-seq, 4C et analyses transcriptomiques). / A given cell has to be able to adapt its fate and homeostasis in response to endogenous and exogenous signals. This adaptation occurs through finely tuned regulations of genes' expressions leading to the variation of their transcriptomes. Multiple parameters have to be integrated in order to provide such mechanisms of regulation. First, the primary sequence of the genome and its organization into chromatin are major regulatory components that harbor genetic, structural and epigenetic information. Second, the three-dimensional organization of the genome into the nucleus brings both physical and functional constraints that also contribute towards these regulatory processes. Here, we engaged a work aiming to understand and dissect how these several levels of information are integrated during the transcriptional regulation of colinear genes (cluster of genes) by the same signal. We took as a model the coordinated regulation of the estrogen-sensitive TFF cluster driven by the estrogen receptor (ER) and its pioneering factors (FOXA1, FOXA2 and GATAs) in mammary cancer cells. This cluster is located within the long arm of the chromosome 21, and contains the gene model termed TFF1. We used large-scale methods (ChIP-chip, ChIP-seq, 4C and microarray transcriptomic analyses) to decipher these dynamic mechanisms. Adn Transcription ARN polymerase II Régulation Oestrogènes Chromatine DNA Estrogen RNA polymerase II Chromatin Genetic transcription
257	Molecular characterization of ARID and DDT domain Unknown Date (has links) Transcriptional regulation of genes is vital to cell success making it an important aspect of research. Transcriptional regulation can occur in many ways; transcription factors bind to the promoter region and block transcription, disrupt an activator protein, or interact with histones to lead to higher order chromatin. Plant HomeoDomain can recognize and bind to different methylation states of histone tails. PHD proteins use other functional regions to carry out functions. Two associated domains having DNA-binding capacity were characterized in this study; the ARID domains of JARID1A and JARID1C and the DDT domains of BAZ1A, BAZ1B and BAZ2A. These genes are important because of their roles in various diseases such as cancer. The consensus sequences for BAZ1A-DDT is GGACGGRnnGG, GnGAGRGCRnnGGnG, RAGGGGGRnG and CRYCGGT. Consensus sequences for BAZ1B-DDT were CGnCCAnCTTnTGGG and YGCCCCTCCCCnR. Consensus sequences for BAZ2A-DDT were TACnnAGCnY and CnnCCRGCnRTGnYY. Consensus sequence for JARID1A-ARID was GnYnGCGYRCYnCnG. Consensus sequences for JARID1C-ARID was RGGRGCCRGGY. / by Emmanuel MacDonald. / Thesis (M.S.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web. Genetic transcription--Regulation Transcription factors Zinc-finger proteins--Synthesis Cellular signal transduction Gene expression
258	A comprehensive study of mammalian SNAG transcription family members Unknown Date (has links) Transcriptional regulation by the family of SNAG (Snail/Gfi-1) zinc fingers has been shown to play a role in various developmental states and diseases. These transcriptional repressors have function in both DNA- and protein-binding, allowing for multiple interactions by a single family member. This work aims to characterize the SNAG members Slug, Smuc, Snail, Scratch, Gfi-1, Gfi-1B, and IA-1 in terms of both DNA-protein and protein-protein interactions. The specific DNA sequences to which the zinc finger regions bind were determined for each member, and a general consensus of TGCACCTGTCCGA, was developed for four of the members. Via these studies, we also reveal thebinding affinities of E-box (CANNTG) sequences to the members, since this core is found for multiple members' binding sites. Additionally, protein-protein interactions of SNAG members to other biological molecules were investigated. The Slug domain and Scratch domain have unknown function, yet through yeast two-hybrid screening, we were able to determine protein interaction partners for them as well as for other full length SNAG members. These protein-interacting partners have suggested function as corepressors during transcriptional repression. The comprehensive information determined from these studies allow for a better understanding of the functional relationship between SNAG-ZFPs and other genes. The collected data not only creates a new profile for each member investigated, but it also allows for further studies to be initiated from the results. / by Cindy Chiang. / Thesis (Ph.D.)--Florida Atlantic University, 2012. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2012. Mode of access: World Wide Web. Cellular signal transduction Zinc-finger proteins--Synthesis Metalloproteins--Synthesis Genetic transcription--Regulation
259	Heterologous expression and purification of cell function components -: an effort towards developing an antigen-capture ELISA diagnostics for metastatic cancers Unknown Date (has links) Metastatic cancers are problematic because they spread throughout the body. A crucial step in cancer metastasis is the separation of the cancer cells from their surrounding normal cells. This occurs due to suppression or destruction of cell adhesion molecules such as E-cadherin, occludin, and various claudins. The Snail and Slug transcription factors play a direct role in suppressing these cell adhesion molecules through their SNAG repression domain. We explored the possibility of developing an ELISA diagnostics capable of detecting soluble E-cadherin, occludin, and claudin fragments in the serum of cancer patients. Using several bioinformatics tools, unique extracellular antigenic sequences were identified on claudins-1, 4, 16, occludin, and E-cadherin. These sequences were cloned as GST fusion proteins, expressed, and purified in large quantities to raise antibodies. In parallel, expression profiling of metastatic cancer cell lines was carried out to derive a correlation between Snail-Slug expression and suppression of cell adhesion molecules. / by Michael Irvine. / Thesis (M.S.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web. Cellular signal transduction Extracellular matrix proteins Genetic transcription--Research Metalloproteinases--Inhibitors
260	Activators and repressors of transcription: using bioinformatics approaches to analyze and group human transcription factors Unknown Date (has links) Transcription factors are macromolecules that are involved in transcriptional regulation by interacting with specific DNA regions, and they can cause activation or silencing of their target genes. Gene regulation by transcriptional control explains different biological processes such as development, function, and disease. Even though transcriptional control has been of great interest for molecular biology, much still remains unknown. This study was designed to generate the most current list of human transcription factor genes. Unique entries of transcription factor genes were collected and entered into Microsoft Office 2007 Access Database along with information about each gene. Microsoft Office 2007 Access tools were used to analyze and group collected entries according to different properties such as activator or repressor record, or presence of certain protein domains. Furthermore, protein sequence alignments of members of different groups were performed, and phylogenetic trees were used to analyze relationship between different members of each group. This work contributes to the existing knowledge of transcriptional regulation in humans. / by Ala Savitskaya. / Thesis (M.S.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web. Transcription factors Genetic transcription--Regulation Cellular signal transduction DNA microarrays Bioinformatics

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