Global ETD Search

201	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana 31 May 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
202	Functional Role of Dead-Box P68 RNA Helicase in Gene Expression Lin, Chunru 31 July 2006 (has links) How tumor cells migrate and metastasize from primary sites requires four major steps: invasion, intravasation, extravasation and proliferation from micrometastases to malignant tumor. The initiation of tumor cell invasion requires Epithelial-Mesenchymal Transition (EMT), by which tumor cells lose cell-cell interactions and gain the ability of migration. The gene expression profile during the EMT process has been extensively investigated to study the initiation of EMT. In our studies, we indicated that tyrosine phosphorylation of human p68 RNA helicase positively associated with the malignant status of tumor tissue or cells. Studying of this relationship revealed that p68 RNA helicase played a critical role in EMT progression by repression of E-cadherin as an epithelial marker and upregulation of Vimentin as a mesenchymal marker. Insight into the mechanism of how p68 RNA helicase represses E-cadherin expression indicated that p68 RNA helicase initiated EMT by transcriptional upregulation of Snail. Human p68 RNA helicase has been documented as an RNA-dependent ATPase. The protein is an essential factor in the pre-mRNA splicing procedure. Some examples show that p68 RNA helicase functions as a transcriptional coactivator in ATPase dependent or independent manner. Here we indicated that p68 RNA helicase unwound protein complexes to modulate protein-protein interactions by using protein-dependent ATPase activity. The phosphorylated p68 RNA helicase displaced HDAC1 from the chromatin remodeling MBD3:Mi2/NuRD complex at the Snail promoter. Thus, our data demonstrated an example of protein-dependent ATPase which modulates protein-protein interactions within the chromatin remodeling machine. p68 phosphorylation EMT Snail HDAC1 NuRD ATPase DEAD-box transcriptional regulation protein-protein interaction Biology, general
203	From Population to Single Cells: Deconvolution of Cell-cycle Dynamics Guo, Xin January 2012 (has links) <p>The cell cycle is one of the fundamental processes in all living organisms, and all cells arise from the division of existing cells. To better understand the regulation of the cell cycle, synchrony experiments are widely used to monitor cellular dynamics during this process. In such experiments, a large population of cells is generally arrested or selected at one stage of the cycle, and then released to progress through subsequent division stages. Measurements are then taken in this population at a variety of time points after release to provide insight into the dynamics of the cell cycle. However, due to cell-to-cell variability and asymmetric cell division, cells in a synchronized population lose synchrony over time. As a result, the time-series measurements from the synchronized cell populations do not accurately reflect the underlying dynamics of cell-cycle processes.</p><p>In this thesis, we introduce a deconvolution algorithm that learns a more accurate view of cell-cycle dynamics, free from the convolution effects associated with imperfect cell synchronization. Through wavelet-basis regularization, our method sharpens signal without sharpening noise, and can remarkably increase both the dynamic range and the temporal resolution of time-series data. Though it can be applied to any such data, we demonstrate the utility of our method by applying it to a recent cell-cycle transcription time course in the eukaryote <italic>Saccharomyces cerevisiae</italic>. We show that our method more sensitively detects cell-cycle-regulated transcription, and reveals subtle timing differences that are masked in the original population measurements. Our algorithm also explicitly learns distinct transcription programs for both mother and daughter cells, enabling us to identify 82 genes transcribed almost entirely in the early G1 in a daughter-specific manner.</p><p>In addition to the cell-cycle deconvolution algorithm, we introduce <italic>DOMAIN</italic>, a protein-protein interaction (PPI) network alignment method, which employs a novel <italic>direct-edge-alignment</italic> paradigm to detect conserved functional modules (e.g., protein complexes, molecular pathways) from pairwise PPI networks. By applying our approach to detect protein complexes conserved in yeast-fly and yeast-worm PPI networks, we show that our approach outperforms two widely used approaches in most alignment performance metrics. We also show that our approach enables us to identify conserved cell-cycle-related functional modules across yeast-fly PPI networks.</p> / Dissertation Bioinformatics Computer science cell cycle deconvolution intrinsically disordered regions protein-protein interaction transcriptional program
204	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana 31 May 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
205	Pumilio-mediated Repression of mRNAs in the Early Drosophila Melanogaster Embryo Nomie, Krystle Joli January 2009 (has links) <p>Post-transcriptional regulation plays an important role in governing various processes in all organisms. The development of the early embryo of <italic>Drosophila melanogaster</italic> is governed solely by post-transcriptional mechanisms; therefore, further insights into post-transcriptional regulation can be gained by studying the <italic>Drosophila </italic> embryo. This thesis addresses the actions of the translational repressor, Pumilio, in regulating two mRNAs during early embryogenesis. First, we examined the ability of Pumilio to regulate the mRNA stability of <italic>bicoid</italic>, a gene required for <italic>Drosophila </italic> head development. <italic>bicoid</italic> mRNA contains the canonical Pumilio recognition site, termed the Nanos response element (NRE), within the 3'UTR. Interestingly, we show that Pumilio binds to the NRE both in vitro and in vivo; however, no physiological significance is associated with this interaction. Furthermore, in <italic> pumilio</italic> mutant embryos <italic>bicoid</italic> mRNA stability and translation are unaltered, demonstrating that Pumilio does not regulate <italic>bicoid</italic> mRNA. Second, Pumilio has been shown to negatively regulate <italic>Cyclin B</italic>, the cyclin necessary for mitotic entry, in the somatic cytoplasm of the embryo and this repression is alleviated by the PNG Kinase complex through currently unidentified mechanisms. We further investigated the actions of Pumilio in regulating <italic>Cyclin B</italic> and discovered that the canonical partner of Pumilio, Nanos, is not involved in repressing somatic <italic>Cyclin B</italic>. Furthermore, we show that the 3'UTR of <italic>Cyclin B</italic> is not required for the regulation by Pumilio and the PNG Kinase complex. Lastly, through genetic analyses, we conclude that Pumilio may actually act upstream of the PNG Kinase complex to regulate <italic>Cyclin B</italic>.</p> / Dissertation Biology, Genetics Biology, Cell Biology, Molecular bicoid Cyclin B Drosophila melanogaster post transcriptional regulation Pumilio
206	Post-transcriptional regulation of gene expression in response to iron deficiency in Saccharomyces cerevisiae Vergara, Sandra Viviana January 2010 (has links) <p>The ability of iron (Fe) to easily transition between two valence states makes it a preferred co-factor for innumerable biochemical reactions, ranging from cellular energy production, to oxygen transport, to DNA synthesis and chromatin modification. While Fe is highly abundant on the crust of the earth, its insolubility at neutral pH limits its bioavailability. As a consequence, organisms have evolved sophisticated mechanisms of adaptation to conditions of scarce Fe availability. </p> <p>Studies in the baker's yeast Saccharomyces cerevisiae have shed light into the cellular mechanisms by which cells respond to limited Fe-availability. In response to Fe-deficiency, the transcription factors Aft1 and Aft2 activate a group of genes collectively known as the Fe-regulon. Genes in this group encode proteins involved in the high-affinity plasma membrane Fe-transport and siderophore uptake systems, as well as Fe-mobilization from intracellular stores and heme re-utilization. Concomitant with the up-regulation of the Fe-regulon, a large number of mRNAs encoding Fe-dependent proteins as well as proteins involved in many Fe-dependent processes are markedly down regulated. Thus, in response to low Fe-levels the cell activates the Fe-uptake and mobilization systems, while down-regulating mRNAs involved in highly Fe-demanding processes leading to a genome-wide remodeling of cellular metabolism that permits the funneling of the limiting Fe to essential Fe-dependent reactions. </p> <p>The Fe-regulon member Cth2 belongs to a family of mRNA-binding proteins characterized by an RNA-binding motif consisting of two tandem zinc-fingers of the CX8CX5CX3H type. Members of this family recognize and bind specific AU-rich elements (AREs) located in the 3'untranslated region (3'UTRs) of select groups of mRNAs, thereby promoting their rapid degradation. In response to Fe-limitation, Cth2 binds ARE sequences within the 3'UTRs of many mRNAs encoding proteins involved in Fe-homeostasis and Fe-dependent processes, thereby accelerating their rate of decay. </p> <p>Work described in this dissertation demonstrates that the Cth2 homolog, Cth1, is a bona fide member of the Fe-regulon, binds ARE-sequences within the 3'UTRs of select mRNAs and promotes their decay. Cth1 and Cth2 appear to be only partially redundant; Cth1 preferentially targets mRNAs encoding mitochondrial proteins, while Cth2 promotes the degradation of most of Cth1 targets in addition to other mitochondrial and non-mitochondrial Fe-requiring processes. The coordinated activity of Cth1 and Cth2 results in dramatic changes in glucose metabolism. In addition, experiments described in this dissertation indicate that the CTH1 and CTH2 transcripts are themselves subject to ARE-mediated regulation by the Cth1 and Cth2 proteins, creating an auto- and trans-regulatory circuit responsible for differences in their expression. Finally, work described here demonstrates that Cth2 is a nucleocytoplasmic shuttling protein and that shuttling is important for the early determination of cytosolic mRNA-fate.</p> / Dissertation Biology, Molecular Biology, Cell AU-rich element iron metabolism post-transcriptional regulation Saccharomyces cerevisiae
207	Transcriptional Regulation of Galectin 15 (LGALS15): An Implantation-Related Galectin Uniquely Expressed in the Uteri of Sheep and Goats Lewis, Shaye K. 2009 August 1900 (has links) Galectins are a family of secreted animal lectins with a high affinity to betagalactosides commonly involved in cellular functions such as apoptosis, adhesion and migration. Galectin 15 (LGALS15), a newest member of the galectin superfamily, has a unique C-terminal RGD sequence and participates in integrin-mediated ovine trophectoderm cell attachment and migration. In the ovine uterus, LGALS15 is expressed only by the endometrial luminal (LE) and superficial glandular (sGE) epithelia, induced by progesterone between Days 10 and 12 of the cycle and pregnancy, and then stimulated by interferon tau (IFNT) from the conceptus after Day 14 of pregnancy. During early pregnancy, the canonical janus kinase-signal transducer and activator of transcription (JAK-STAT) pathway is not active in the endometrial LE/sGE. Therefore, IFNT may utilizes a non-canonical signaling pathway to increase transcription of genes, including CST3, CTSL, HIF2A, LGALS15, and WNT7A, specifically in the endometrial LE/sGE. Alternatively, IFNT and progesterone could indirectly affect epithelial gene expression by influencing gene expression in the stroma, which then communicates with the epithelium. Although the LGALS15 gene is present in ovine, caprine and bovine species, it is only expressed in uteri of sheep and goats. Available data shows a tissue- and speciesspecific expression pattern for LGALS15, likely involving multiple layers of transcription regulation in the ruminant endometrium. Further analysis of the LGALS15 5? promoter/enhancer region revealed similar predicted transcription factor binding sites in all three species, including; PU.1, Ets-1, AP1, Sp1, and GRE or PRE sites. Interestingly, the proximal promoter region of the LGALS15 gene in all three species exhibited a conserved Sp1 binding site upstream of an AP1 binding site on both sense and antisense strands, and with similar spacing between binding sites. Sequence analysis revealed key differences in LGALS15 gene structure between ruminant species including the proximity of repetitive DNA sequences to the transcription start site (+1). Bovine LGALS15 has repetitive DNA sequences start at - 145 whereas in ovine or caprine LGALS15 it starts at about -300. The length of the repetitive DNA sequence is similar (~1.2 kb) in the 5' promoter/enhancer region of LGALS15 in all three species. Transient transfection analyses found that repetitive DNA sequences reduced basal promoter activity and responsiveness to treatments. None of the promoter construct showed responsiveness to interferon tau (IFNT). The bovine LGALS15 gene promoter showed no activity under any experimental conditions. The current studies indicate that uterine LGALS15 is expressed in ovine and caprine but not bovine species. Additionally, repetitive DNA sequences found in the promoter region may contribute to modulating the LGALS15 gene expression. Therefore, the ruminant LGALS15 gene, like other galectins, is under tight transcriptional control involving hormones, requisite transcription factors and potentially chromatin remodeling complexes working synergistically for LGALS15 promoter transactivation. Implantation uterus galectin transcriptional regulation trophoblast conceptus pregnancy methylation CpG dinucleotide
208	The Ribosomal DNA Genes Influence Genome-Wide Gene Expression in Drosophila melanogaster Paredes Martinez, Lida Silvana 2011 May 1900 (has links) Chromatin structure is a fundamental determinant of eukaryotic gene expression and it is composed of two chromatin environments, euchromatin and heterochromatin. Euchromatin provides an accessible platform for transcription factors; hence it is permissive for gene expression. Heterochromatin on the other hand is highly compacted and inaccessible, which in most cases leads to transcriptional repression. A locus that is composed of both of these environments is the ribosomal DNA (rDNA). In eukaryotes the rDNA is composed of hundreds to thousands of tandemly repeated genes where maintaining both silent and active copies is fundamental for the stability of the genome. The aim of this research was to investigate the role of the rDNA in gene expression in Drosophila melanogaster. In D. melanogaster the rDNA loci are present on the X and Y chromosomes. This research used the Y-linked rDNA array to investigate the role of this locus on gene expression. A genetic and molecular strategy was designed to create and quantify specific, graded and isogenic Y- linked rDNA deletions. Then the deletions were used to address the effect of rDNA deletions on gene expression using reporter genes sensitive to Position Effect Variegation (PEV). In addition, the effect of the deletions in nucleolus size and structure as well as the effect of spontaneous rDNA deletions on gene expression were tested in this study. This research found that changes in rDNA size change the chromatin balance, which resulted in increased expression of the reporter genes, decreased nucleolus volume, and altered nucleolus structure. These findings prompted a further research question on whether this effect on gene expression occured globally in the genome. This was addressed by performing microarray analysis where the results showed that rDNA deletions affect about half of the genes on the genome. Presented in this dissertation is evidence that suggest a novel role for the rDNA is a global modulator of gene expression and also is a contributor to the gene expression variance observed in natural populations. Chromatin Position Effect Variegation (PEV) Ribosomal DNA epigenetics Nucleolus transcriptional profiling genetics
209	The Effects Of Twelve Quorum-sensing Gene Products On The Expression Of Bacabcde Operon In Bacillus Subtilis Ogulur, Ismail 01 May 2008 (has links) (PDF) In Bacillus subtilis, genetic competence, sporulation and antibiotic production are controlled by quorum-sensing global regulatory mechanism. Bacilysin, being produced and excreted by certain strains of Bacillus subtilis, is a dipeptide antibiotic composed of L-alanine and L-anticapsin. We showed that the biosynthesis of bacilysin is under the control of quorum sensing global regulatory pathway through the action of ComQ/ComX, PhrC (CSF), ComP/ComA in a Spo0K (Opp)-dependent manner. Recently, the ywfBCDEF genes of B. subtilis 168 were shown to carry biosynthetic core function and renamed as bacABCDE operon. The objective of the present study is to elucidate the effects of previously-identified genes srfA, oppA, comA, phrC, phrF, phrK, comQ (comX), comP, spo0H, spo0A, abrB and codY on the expression of bacilysin biosynthetic operon bacABCDE. In order to monitor the expression of bac operon a B. subtilis strain, namely OGU1, containing a transcriptional bacA-lacZ fusion at bacA locus was constructed. Subsequently, each of the above-mentioned genes of cell density signaling was insertionally inactivated by transforming the competent cells of OGU1 with chromosomal DNA of the corresponding blocked mutant strains. The resulting strains and OGU1 as the control were cultured in PA medium and bacA-directed &amp / #946 / -galactosidase activities were monitored. bacA-lacZ expression was severely impaired in the srfA, oppA, comA, phrC, phrF, phrK, comQ (comX), comP, spo0H and spo0A disrupted mutants. On the other hand, in the abrB single mutant bacA expression level increased nearly 2-fold during exponential growth and in the codY mutant it severely decreased during the stationary phase. QR Microbiology 1-502 Bacillus subtilis Quorum-sensing Bacilysin Transcriptional Fusion
210	Functional Activation of Peroxisome Proliferator-Activated Receptor α (PPARα) by Environmental Chemicals in Relation to Their Toxicities AOYAMA, TOSHIFUMI, ITOHARA, SEIICHIRO, KAMIJIMA, MICHIHIRO, ICHIHARA, GAKU, NAKAJIMA, TAMIE 11 1900 (has links) No description available. transcriptional activation plasticizers plasticizers organic solvents herbicides

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