Global ETD Search

571	Studies on signals mediating or preventing the intracrine induction of chromatin compaction and cell death by high molecular weight fibroblast growth factor 2 Ma, Xin 05 April 2011 (has links) Fibroblast growth factor 2 (FGF2) is a multifunctional protein translated as CUG-initiated, high molecular weight (hi FGF2) or AUG-initiated, low molecular weight (lo FGF2) isoforms with potentially distinct functions. Previous work showed that overexpression of hi- but not lo FGF2 elicited chromatin compaction resulting in cell death, by an intracrine route. A series of studies were undertaken aimed at extending our understanding of the intracrine action of Hi FGF2. Major findings are as follows: a. Hi FGF2 overexpression induces apoptotic cell death, as indicated by increased TUNEL staining, and mitochondrial participation (cytochrome c release to cytosol, rescue of the hi FGF2 phenotype by the anti-apoptotic protein Bcl-2. b. Increased expression of pro-survival signals/proteins that are known to upregulate Bcl-2, such as nuclear Akt; the PIM-1 kinase; and the heat shock protein hsp70, also rescued the hi FGF2-induced phenotype. c. The hi-FGF2 effect was associated with sustained, intracrine, activation of ERK, and was blocked by ERK inhibitors. d. FGF2 isoform specific affinity chromatography followed by mass spectroscopy identified several proteins as potentially interacting with hi FGF2; of these, the p68 RNA helicase and the hsp70 were further confirmed as interacting partners, by co-immunoprecipitation. e. Increased nuclear co-localization, and possibly interaction, between hi FGF2 and overexpressed hsp70 correlated with rescue from hi FGF2 induced cell death. f. Factors associated with cardiac pathology (isoproterenol, angiotensin II, endothelin I) also upregulated endogenous hi FGF2 in cardiac cells in culture. Adriamycin-induced cardiotoxicity in the rat, known to be linked to increased incidence of apoptosis, was also associated with increased endogenous hi FGF2. g. Hi FGF2 is expressed in the human heart (atria) and localizes in both cytosol and nuclei, suggesting a participation in human heart physiology and pathophysiology. Work presented here is consistent with the notion that endogenous hi FGF2 up-regulation may play a role in promoting cell death during prolonged tissue stress and dysfunction. It follows that processes related to hi FGF2 upregulation, hi FGF2-nuclear protein interactions and mechanisms of hi FGF2 induced cell death, represent potential therapeutic targets for modulating cell death. chromatin compaction apoptotic cell death intracrine
572	Gene regulation during development by chromatin and the Super Elongation Complex Dahlberg, Olle January 2014 (has links) Developmental processes are carefully controlled at the level of transcription to ensure that the fertilized egg develops into an adult organism. The mechanisms that controls transcription of protein-coding genes ultimately ensure that the Pol II machine synthesizes mRNA from the correct set of genes in every cell type. Transcriptional control involves Pol II recruitment as well as transcriptional elongation. Recent genome-wide studies shows that recruitment of Pol II is often followed by an intermediate step where Pol II is halted in a promoter-proximal paused configuration. The release of Pol II from promoter-proximal pausing is thus an additional and commonly occurring mechanism in metazoan gene regulation. The serine kinase P-TEFb is part of the Super Elongation Complex that regulates the release of paused Pol II into productive elongation. However, little is known about the role of P-TEFb mediated gene expression in development. We have investigated the function of P-TEFb in early Drosophila embryogenesis and find that P-TEFb and other Super Elongation Complex subunits are critical for activation of the most early expressed genes. We demonstrate an unexpected function for Super Elongation Complex in activation of genes with non-paused Pol II. Furthermore, the Super Elongation Complex shares phenotypes with subunits of the Mediator complex to control the activation of essential developmental genes. This raises the possibility that the Super Elongation Complex has an unappreciated role in the recruitment of Pol II to promoters. The unique chromatin landscape of each cell type is comprised of post-translational chromatin modifications such as histone methylations and acetylations. To study the function of histone modifications during development, we depleted the histone demethylase KDM4A in Drosophila to evaluate the role of KDM4A and histone H3 lysine 36 trimethylation (H3K36me3) in gene regulation. We find that KDM4A has a male-specific function and regulates gene expression both by catalytic-dependent and independent mechanisms. Furthermore, we used histone replacement to investigate the direct role of H3K14 acetylation in a multicellular organism. We show that H3K14 acetylation is essential for development, but is not cell lethal, suggesting that H3K14 acetylation has a critical role in developmental gene regulation. This work expands our knowledge of the mechanisms that precisely controls gene regulation and transcription, and in addition highlights the complexity of metazoan development. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 1: Manuscript. Paper 3: Manuscript.</p> Drosophila development gene regulation transcription chromatin P-TEFb Super Elongation Complex KDM4A H3K36me3 H3K14ac histone replacement
573	Characterizing the interaction between Inhibitor of Growth (ING) proteins and the nucleosome Williamson, Bradley 27 April 2012 (has links) Inhibitor of growth (ING) proteins have been classified as type II tumour suppressor proteins due to their ability to facilitate cellular events such as chromatin remodelling, apoptosis, angiogenesis, DNA replication, DNA repair, cell cycle progression, cell senescence and hormone response regulation. These processes are all associated with combating oncogenesis; conversely, recent evidence suggesting that ING proteins also function as oncogenes in certain cancers has spurred the investigation of ING proteins as potential anticancer targets. In order to better understand the complex role ING proteins play in the cell, the mechanisms that direct ING proteins to the chromatin template require extensive study. This dissertation investigates the role the chromatin environment plays in recruiting ING proteins by characterizing the interaction between ING proteins and chromatin. ING proteins have been shown to interact with the histone H3 lysine 4 trimethylated (H3K4me3) epigenetic mark through binding studies between peptides comprising the ING plant homeodomain (PHD) finger and the H3 N-terminal tail. However, these studies do not take into account the effect of organizing H3 into a nucleosome or the effect of the remaining ING protein structural domains. In order to address these elements, this dissertation describes binding studies between the PHD finger of Yng1 (Yng1PHD) and H3K4me3 in the context of a nucleosome, and between full-length Xenopus laevis ING1 (xING1) and H3K4me3 in the context of a nucleosome. A 6XHis tagged xING1 protein was purified, Yng1PHD was obtained from Dr. Leanne Howe, and an analog of H3K4me3 (H3KC4me3) was installed into recombinant H3 protein and used to reconstitute nucleosomes. Affinity-tag based anti-Yng1PHD and anti-xING1 pull-down assays were then used to display an in vitro H3K4 methylation-dependent interaction between Yng1PHD / xING1 and H3KC4me3 containing nucleosomes. In addition, analytical ultracentrifuge (AUC) analysis of the xING1 protein displayed the presence of 3 species containing sedimentation coefficients consistent with those that would be expected from monomeric, dimeric and tetrameric forms of xING1. Several studies have focused on the interaction between ING proteins and DNA binding proteins such as transcription factors and hormone receptors which recruit ING proteins to specific genes. However, little knowledge is available regarding the role chromatin plays in recruiting ING proteins with the exception of the interaction between the ING PHD fingers and H3K4me3. This dissertation addresses this gap in knowledge by investigating the nature of chromatin bound by the human ING1b (hING1b) protein. For this purpose, HEK293 cells were transfected with a Flag-hING1b construct. Upon fractionation of the HEK293 chromatin, Flag-hING1b was found to localize exclusively to the “Pellet” fraction. ChIP analysis of the HEK293 chromatin showed that Flag-hING1b bound nucleosomes were deprived of H3K9me3, H3K27me3 and H3S10P, contained no enrichment for H3K4me3 and H3K36me3, and were significantly enriched for H2A.Z. Lastly, a hING1b-GFP construct was transiently transfected into SKN-SH human neuroblastoma cells and found to be evenly distributed throughout the nucleus with moderate enrichment on chromatin and within the nucleolus. / Graduate chromatin epigenetics inhibitor of growth proteins tumour suppresors nucleosome protein binding transcription
574	Characterisation of nuclear sub-structures Patel, Shailendra Bhanubhai January 1984 (has links) When living cells are lysed in non-ionic detergents and 2M NaCl, structures are released that resemble nuclei, termed nucleoids. Nucleoids contain tenaciously attached DNA, RNA and protein. The nature of the interactions of these components is poorly understood. It is known that the DNA is attached to these structures in a looped configuration, and newly synthesised DNA is found closely associated with the attachment sites. Therefore, the speculation that these attachment sites have a functional signification other than for structural purposes has been seriously considered. To investigate these possibilities, the proteins were characterised for DNA binding activity, and the presence of any enzymatic activity. Some of the nucleoid proteins are derived from the cell surface, and specific phosphorylating and methylating activities were also detected. The significance of these findings remains to be determined. The study of the DNA-binding activity is hampered by the fact that these proteins are not readily solubilised away from the nucleic acids. However, DNA-binding proteins are present in nucleoids. No specificity for DNA sequences was demonstrable, using the protein blotting technique. In the course of these studies, a new technique was devised to enable sequence-binding proteins to be identified. Examination of the DNA close to thl attachment sites shows it to be enriched in transcriptionally active genes, and in a given population of cells, some genes are closer to the attachment sites than others. This supports the idea that genes are specifically arranged within the nucleus of any cell, and that this position is of functional significance. Direct examination of the most closely adherent DNA to these structures did not reveal any one DNA sequence that may mediate attachment. 572.8
575	A Characterization of the Role of Post-translational Modification in Transcriptional Regulation by the Histone Variant H2A.Z Draker, Ryan 11 December 2012 (has links) H2A.Z is an essential histone variant that has multiple chromosomal functions. One such role is transcriptional regulation. However, its role in this process is complex since it has been reported to function both as a repressor and activator. Earlier work in our lab showed that H2A.Z can be post-translationally modified with monoubiquitin (H2A.Zub1) and this form of H2A.Z is linked to transcriptional silencing. We further predicted that changes in the H2A.Z ubiquitylation status directly modulated its function in transcription. Furthermore, H2A.Z-containing nucleosomes possess a unique set of post-translational modifications (PTMs), compared to H2A nucleosomes, many of which are linked to transcriptional activation. The central aim of this thesis was to characterize the role of PTMs on H2A.Z nucleosomes in transcriptional regulation. To this end, I have provided the first evidence linking H2A.Z deubiquitylation to transcriptional activation. I demonstrated that ubiquitin specific protease 10 (USP10) is a deubiquitylase that targets H2A.Z in vitro and in vivo. Moreover, I found that both H2A.Z and USP10 are required for activation of androgen-receptor (AR)-regulated genes, and that USP10 regulates the levels of H2A.Zub1 at these genes. To understand how H2A.Z engages downstream effector proteins, in the nucleosome context, we used a mass spectrometry approach to identify H2A.Z-nucleosome-interacting proteins. Many of the identified proteins contained conserved structural motifs that bind post-translationally modified histones. For example, we found that Brd2 contains tandem bromodomains that engage H2A.Z nucleosomes through acetylated H4 residues. To investigate the biological relevance of this interaction, I present evidence that Brd2 is recruited to AR-regulated genes in a manner dependent on H2A.Z and the bromodomains of Brd2. Consistent with this observation, chemical inhibition of Brd2 recruitment greatly inhibited AR-regulated gene expression. Collectively, these studies have defined how H2A.Z mediates transcriptional regulation through multiple mechanisms and pathways. chromatin histone variants H2A.Z transcription androgen receptor post-translational modifications 0307
576	Roles for the Cohibin Complex and its Associated Factors in the Maintenance of Several Silent Chromatin Domains in S. cerevisiae Poon, Betty Po Kei 26 November 2012 (has links) In Saccharomyces cerevisiae, the telomeres and rDNA repeats are repetitive silent chromatin domains that are tightly regulated to maintain silencing and genome stability. Disruption of the Cohibin complex, which maintains rDNA silencing and stability, also abrogates telomere localization and silencing. Cohibin-deficient cells have decreased Sir2 localization at telomeres, and restoring telomeric Sir2 concentrations rescues the telomeric defects observed in Cohibin-deficient cells. Genetic and molecular interactions suggest that Cohibin clusters telomeres to the nuclear envelope by binding inner nuclear membrane proteins. Futhermore, telomeric and rDNA sequences can form G-quadruplex structures. G-quadruplexes are non-canonical DNA structures that have been linked to processes affecting chromosome stability. Disruption of the G-quadruplex stabilizing protein Stm1, which also interacts with Cohibin, increases rDNA stability without affecting silent chromatin formation. In all, our findings have led to the discovery of new processes involved in the maintenance of repetitive silent chromatin domains that may be conserved across eukaryotes. Cohibin G-quadruplex telomere ribosomal DNA silent chromatin genome stability 0369 0307
577	A biophysical study of intranuclear herpes simplex virus type 1 DNA during lytic infection Lacasse, Jonathan J 11 1900 (has links) Herpes Simplex Virus Type 1 (HSV-1) establishes latent infections in neurons in vivo and lytic infections in epithelial cells and fibroblasts. During latent infections, HSV-1 transcription is restricted and the genomes are not replicated. Latent HSV-1 genomes are chromatinized, such that digestion with micrococcal nuclease (MCN) releases DNA fragments with sizes characteristic of nucleosomal DNA. During lytic infections, in contrast, all HSV-1 genes are expressed, the genomes are replicated, and their digestion produces primarily heterogeneously sized fragments. However, as evaluated by ChIP assays, HSV-1 DNA interacts with histones during lytic infections, although in most cases only a small percentage of HSV-1 DNA co-immunoprecipitates with histones (or is cleaved to nucleosome sizes following MCN digestion). Therefore, although current models propose that chromatin regulates HSV-1 transcription, it remains unclear how the association of histones with only a small percentage of HSV-1 DNA can globally regulate viral transcription. Moreover, the physical properties of the complexes containing histones and HSV-1 DNA are unknown. My objective was therefore to evaluate the biophysical properties of the HSV-1 DNA-containing complexes during lytic infection. Differing from pervious studies, however, I used classical chromatin purification techniques. I show that most HSV-1 DNA is in unstable nucleoprotein complexes and, consequently, more accessible to MCN than DNA in cellular chromatin. This HSV-1 DNA is protected from MCN redigestion only after crosslinking, similar to unstable cellular nucleosomes. HSV-1 DNA is in such complexes throughout lytic infection. Using unrelated small-molecule inhibitors, I further show that inhibition of HSV-1 transcription is associated with a decrease in MCN accessibility of HSV-1 DNA. Roscovitine, a cyclin-dependent kinase inhibitor, prevents activation but not elongation of IE, E, and L HSV-1 transcription. Consistent with a functional association between accessibility and transcription, roscovitine only decreases the accessibility of DNA templates of which it also inhibits transcription, independent of specific promoter sequences. In summary, I show that most HSV-1 DNA is in unstable nucleosome-like complexes during lytic infection and that accessibility to HSV-1 DNA likely plays a key role in regulating HSV-1 transcription. herpes simplex virus chromatin unstable nucleosome roscovitine pharmacological CDK inhibitors micrococcal nuclease
578	Mi-2 chromatin remodeling factor functions in sensory organ development through proneural gene repression in Drosophila YAMASAKI, Yasutoyo, NISHIDA, Yasuyoshi January 2006 (has links) No description available. NuRD complex chromatin remodeling factor sensory organ development proneural gene macrochaete
579	Chromosome-wide gene regulatory mechanisms in Drosophila melanogaster Johansson, Anna-Mia January 2010 (has links) In Drosophila there are two different chromosome-wide targeting systems, the dosage compensation system that equalizes the transcriptional output from X-linked genes between males and females, and the regulation of the 4th chromosome mediated by the POF protein. The best studied of these two mechanisms is the dosage compensation system. To attain dosage compensation in Drosophila at least five different proteins, encoded by the male-specific lethal genes msl1, msl2, msl3, mle and mof, are required. These proteins together with two non-coding RNAs (roX1 and roX2) form a dosage compensation complex (MSL complex), which binds exclusively to the X chromosome in Drosophila males and up-regulates the transcription approximately two times. In this thesis I show that roX1 and roX2 are most likely the only non-coding RNAs within the MSL complex. As expected, the roX transcripts were enriched within the MSL complex. Interestingly, one additional transcript was identified within the MSL complex. This transcript did not associate with the X chromosome and is therefore not believed to be involved in up-regulation of the X-linked genes. This transcript encodes for the rate limiting component in the MSL complex, the MSL2 protein. A model is proposed in which free, partial or complete, MSL complex feed-back regulates the amount of msl2 transcript, and thereby limits the MSL complex production. The second chromosome-wide regulatory system in flies acts on an autosome, the heterochromatic 4th chromosome. This regulation is a balancing mechanism between at least two different proteins, the chromosome 4 specific protein painting of fourth (POF) and heterochromatin protein 1 (HP1). POF binds to nascent RNAs transcribed from the 4th chromosome and HP1 target the same set of genes at the chromatin level. POF stimulates the transcribed genes, while HP1 represses them; together they create the most optimal condition for these genes. This type of balancing mechanism may be a more general way to fine-tune transcription at a chromosome-wide level and raises the question about autosomal gene regulation as a general mechanism. Chromatin structure Drosophila POF disage compensation gene expression MSL heterochromatin Genetics Genetik
580	The Functional Significance and Chromatin Organisation of the Imprinting Control Regions of the H19 and Kcnq1 Genes Kanduri, Meena January 2004 (has links) Genomic imprinting is a phenomenon through which a subset of genes are epigenetically marked during gemtogenisis. This mark is maintained in the soma to often manifest parent of origin-specific monoalleleic expresson patterns. Genetics evidence suggests that gene expression patterns in mprinted genes, which are frequently organised in clusters, are regulated by the imprinting control regions (ICR). This thesis is mainly focused on the mechanisms through which the ICRs control the imprinting in the cluster, containing the Kcnq1, Igf2 and H19 genes, located at the distal end of mouse chromosome 7. The H19 ICR, located in the 5' flank of the H19 gene represses paternal H19 and maternal Igf2 expression, respectively, but has no effect on Kcnq1 expression, which is controlled by another ICR located at the intron 10 of the Kcnq1 gene. This thesis demonstrates that the maternal H19 ICR allele contains several DNase I hypersensitive sites, which map to target sites for the chromatin insulator protein CTCF at the linker regions between the positioned nucleosomes. The thesis demonstrates that the H19 ICR acts as a unidirectional insulator and that this property invovles three nucleosome positioning sites facilitating interaction between the H19 ICR and CTCF. The Kcnq1 ICR function is much more complex, since it horbours both lineage-specific silencing functions and a methylation sensitive unidirectional chromatin insulator function. Importantly, the thesis demonstrates that the Kcnq1 ICR spreads DNA methylation into flanking region only when it is itself unmethylated. Both the methylation spreading and silencing functions map to the same regions. In conclusion, the thesis has unraveled and unrivalled complexity of the epigenetic control and function of short strtches of sequences. The epigenetic status of these cis elements conspires to control long-range silencing and insulation. The manner these imprinting control regions can cause havoc in expresson domains in human diseases is hence emerging. Molecular genetics DNA methylation Imprinting control region Chromatin Insulator Nucleosome positioning Genetik Genetics Genetik

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