Global ETD Search

71	The Influence of DNA Sequence and Post Translational Modifications on Nucleosome Positioning and Stability Mooney, Alex M. 20 December 2012 (has links) No description available. Biochemistry Bioinformatics Biophysics Physics nucleosomes histone octamer post translational modification high throughput DNA sequencing next generation DNA sequencing
72	Developing inhibitors of bromodomain-histone interactions Hewings, David Stephen January 2014 (has links) Lysine acetylation is a widespread protein post-translational modification that influences diverse cellular processes. An association between acetylation of histone N-terminal tails and transcriptional activation has been recognised since the 1960s. However, it has only become apparent since 2000 that many of the effects of histone acetylation are mediated by proteins that bind to acetyl-lysine through a specialised acetyl-lysine recognition domain, the bromodomain. Small-molecule inhibitors of bromodomain-histone interactions can greatly assist studies into the functions of bromodomain-containing proteins, and show promise as treatments for several diseases, including cancers. Herein I describe the discovery and development of a novel chemical series of bromodomain-binding ligands containing the 3,5-dimethyisoxazole moiety. This heterocycle acts as an acetyl-lysine bioisostere, mimicking key interactions formed between acetyl-lysine and the bromodomain. Optimised compounds show sub-micromolar affinities for bromodomains of the BET family, a class of transcriptional co-regulators. Crystallographic and structure-activity relationship studies shed light on the structural requirements for potent and selective BET ligands. Furthermore, the compounds show cellular effects consistent with BET bromodomain inhibition: cytotoxicity studies in a range of cell lines, including the NCI-60 human tumour cell line screen, reveal differential activity, with leukaemias showing particular sensitivity. 3,5-Dimethylisoxazole-containing compounds were also shown to downregulate known BET target genes. Further studies investigated the effect of modifying or replacing the methyl groups of 3,5-dimethylisoxazole on BET bromodomain affinity, which indicated that the 3-methyl group is necessary for affinity. Finally, three novel isoxazole-containing amino acids were synthesised and incorporated into histone peptides as potential bromodomain-binding, non-hydrolysable, acetyl-lysine mimics. These amino acids might be useful in uncovering the function of individual acetylated lysine residues. The identification of methyl-isoxazoles as acetyl-lysine-mimetic bromodomain ligands represents a significant advance in our understanding of structure-activity relationships for these important proteins. The confirmed cellular activity of these compounds will enable their use in future biological studies. 547
73	Molecular mechanism of nucleolin-mediated Pol I transcription and characterization of nucleolin acetylation / Rôle de la nucléoline dans le mécanisme moléculaire de la regulation de la transcription par la polymérase I et caractérisation de son acétylation Das, Sadhan Chandra 29 November 2012 (has links) Nous montrons dans cette étude que dans les cellules déplétées pour la nucléoline, une plus faible accumulation de pré-ARNr est associée à une augmentation de marques d’hétérochromatine (H3K9me2) et une diminution de marques d’euchromatine (H4K12ac et H3K4me3) sur la chromatine des gènes ribosomiques. Des expériences de ChIP-seq montrent que la nucléoline est enrichie dans la région codante et promotrice de l’ADNr et est préférentiellement associée avec les gènes non méthylés des ARNr. La déplétion de la nucléoline entraîne une accumulation de l’ARN Pol I au début de l’ADNr et une diminution de UBF sur la région codante et promotrice. La nucléoline interfère avec la liaison de TTF-1 sur le promoteur-proximal T0, inhibant ainsi le recrutement de TIP5 du complexe NoRC, et établissant un état d’hétérochromatine répressive. Ces résultats révèlent l’importance de la nucléoline dans le maintien d’un état euchromatinien des ADNr et dans l’élongation de la transcription. Nous montrons aussi dans cette thèse que l’acétylation est une nouvelle modification post-traductionnelle de la nucléoline. Des études d’immunofluorescence utilisant l’anticorps anti nucléoline acétylée montrent que la nucléoline acétylée est exclue des nucléoles. De plus, par ChIP-seq nous n’avons jamais pu détecter d’association significative de la nucléoline acétylée sur la chromatine des ADNr. Aussi, nous n’avons détecté aucune activation de la transcription de Pol II sur des matrices de chromatine avec la nucléoline acétylée. Nous trouvons une distribution de la nucléoline acétylée majoritairement dans le nucléoplasme où elle co-localise parfaitement avec le facteur d’épissage SC35, et partiellement avec les structures marquées avec un anticorps dirigé contre Y12, mais ne co-localise pas avec des structures contenant la coïline, ce qui suggère que cette fraction de la nucléoline pourrait être impliquée dans la synthèse ou le métabolisme des pré-ARNm. / Here we have shown that, in nucleolin depleted cells, lower accumulation of pre-rRNA is associated with the increase in heterochromatin marks (H3K9me2) and decrease of the euchromatin histone marks (H4K12Ac and H3K4me3) in rDNA chromatin. ChIP-seq experiments show that nucleolin is enriched in the coding and promoter region of the rDNA and is preferentially associated with the unmethylated rRNA genes. Nucleolin knockdown results in the accumulation of RNAPI at the beginning of the rDNA and a decrease of UBF in the coding and promoter regions. Nucleolin is able to interfere with the binding of TTF-1 on the promoter-proximal terminator T0 thus inhibiting the recruitment of the NoRC subunit TIP5 and HDAC1 and establishing a repressive heterochromatin state. These results reveal the importance of nucleolin in the maintenance of the euchromatin state of rDNA and transcription elongation.In this thesis we have also shown that acetylation is a novel post-translational modification of nucleolin. Immuno-fluorescence studies using anti-acetylated nucleolin antibody illustrated that acetylated nucleolin is excluded from nucleoli and interestingly, neither could we detect any significant binding of ac-nucleolin on rDNA chromatin by doing ChIP-Seq, nor did we detect any activation of Pol II transcription with ac-nucleolin from DNA and chromatin templates. Moreover, we found acetylated nucleolin had a predominant nucleoplasmic distribution where it associates with the splicing factor SC35 and partially with the structures labeled with Y12 antibody, but not with coilin containing structures. Nucléoline ARN Polymérase I Transcription de l’ADNr Modifications post-traductionnelles Acétylation SC35 Facteurs d’épissage Nucleolin RNA polymerase I RDNA transcription Post-translational modification Acetylation SC35 Splicing factor
74	Régulation post-traductionnelle des protéines via phosphorylation chez deux bactéries pathogènes : Mycobacterium tuberculosis et Staphylococcus aureus / Post-translational regulation of proteins by serine/threonine phosphorylation in two pathogenic bacteria : Mycobacterium tuberculosis and Staphylococcus aureus Leiba, Jade 07 June 2013 (has links) La capacité d'adaptation des bactéries à leur environnement repose, entre autres choses, sur des mécanismes de transduction du signal. Ces mécanismes leur permettent de percevoir la nature et les modifications du milieu dans lequel elles évoluent et d'adapter en conséquence leur métabolisme et leur physiologie. L'un de ces mécanismes identifié chez les procaryotes repose sur un processus de régulation impliquant, suite à un stimulus extérieur, une modification réversible des protéines au niveau de résidus séryles et thréonyles par phosphorylation via les sérine/thréonine protéine-kinases (STPK). Chez les bactéries pathogènes, notamment Mycobacterium tuberculosis et Staphylococcus aureus, les STPKs sont impliquées dans la régulation du métabolisme central, de la division cellulaire, de la composition de la paroi et de la virulence. Mes travaux de thèse ont eu pour objectif d'approfondir les connaissances sur la régulation post-traductionnelle des protéines via les STPKs chez ces deux pathogènes humains. Nous avons ainsi identifié de nouveaux substrats des STPKs chez M. tuberculosis et S. aureus et caractérisé l'effet de la phosphorylation sur l'activité de ces substrats. L'ensemble de mes travaux de thèse met en avant le rôle important de la régulation par les STPKs de voies métaboliques diverses chez ces deux pathogènes. / To overcome the stressful conditions imposed during host infections, pathogens have evolved various protective and offensive responses that could be achieved through cascades of phosphorylation. Many of the encountered external stimuli are transduced via sensor kinases embeded within the bacterial membrane, allowing the pathogen to adapt and survive in hostile environments. In addition to the classical two-component systems, Staphylococcus aureus and Mycobacterium tuberculosis possess eukaryotic-like Serine/Threonine Protein-Kinases (STPK). It is becoming clear that in these two human pathogens, many of the STPKs are involved in the regulation of metabolic processes, division, cell wall composition, virulence, etc. Therefore, signalling through STPK phosphorylation has recently emerged as a key regulatory mechanism in pathogenic bacteria. Thus, to investigate the mechanisms of STPK-dependent regulation in M. tuberculosis and S. aureus, we identified and characterized novel endogenous phosphorylated substrates, and analyzed the impact of phosphorylation on their specific activity. Overall, the results presented herein emphasize the important role of STPK-dependent mechanisms in various metabolic pathways in these two pathogens. Modification post-traductionnelle Phosphorylation Mycobacterium tuberculosis Staphylococcus aureus Post-translational modification Phosphorylation Serine/Threonine Proteine-Kinases (STPK) Mycobacterium tuberculosis Staphylococcus aureus
75	The potential role of posttranslational modifications on angiotensin II types 2 (AT2) receptor trafficking. / CUHK electronic theses & dissertations collection January 2011 (has links) Jiang, Lili. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 215-235). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Angiotensin II Post-translational modification Renin-angiotensin system Angiotensin II Protein Processing, Post-Translational Receptor, Angiotensin, Type 2 Renin-Angiotensin System
76	Histone post-translational modifications in the brain of the senescence-accelerated prone 8 mouse. / CUHK electronic theses & dissertations collection January 2009 (has links) In this study, the brain of senescence accelerated mouse prone 8 (SAMP8) mice model was adopted to investigate PTMs state (especially methylation patterns) of core histones (H2A, H2B, H3 and H4). Seven methylated sites (H3K24, H3K27, H3K36, H3K79, H3R128, H4K20 and H2A R89) were detected by tandem matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF/TOF MS) analysis. The methylation of H3K27 and H3K36 demonstrated a modulating relationship and methylated H3K27 might contribute to the hypermethylation state and gene repression in aged brain. Western blotting results showed that mono-methylated H4K20 decreased during SAMP8 mice aging and di-methylated H3K79 decreased in the brain of 12-month-old SAMP8 mice compared with age-matched senescence accelerated-resistant mouse (SAMR1) control. Di-methylated H3K79 could express in neuron cells of cerebral cortex and hippocampus. Whereas, the number of H3K79 methylation negative cells was higher in the cortex of 12-month old SAMP8 mice than that of age-matched control SAMR1 mice. Chromatin immunoprecipitation (ChIP) result indicated homeodomain transcription factor Pbx1 isoform 1 (Pbx1), transcription factors and transcriptional regulator proteins, such as T-box isoform 20, TetR family precursor BAZ2B and ribosomal protein, were recruited to methylated H3K79 site. Therefore, a model of methylated H3K79 on gene transcriptional regulation was proposed. Furthermore, the consequences of decreased H3K79 methylation in Neuro-2a (N2a) cells were investigated via transfection with Dot1 (disruptor of telomeric silencing) siRNA. After transfection, N2a cells displayed shorter neurite and less dendrite. Proteomic change in the N2a cells provided convincing evidence for the multi-function of decreased H3K79 methylation on transcriptional regulation, protein translation and folding, stress response and DNA breaks repair, which would contribute to brain dysfunction during neurodegenerative disease or aging. / Nowadays, many countries including China are experiencing aging populations. Aging has become the major risk factor for many diseases, such as neurodegenerative disease. The studies on the role of epigenetics in the aging process have grown tremendously in recent years. However, no systematic investigations have provided the information on histone post-translational modifications (PTMs) in aged brain and the roles of histone PTMs in brain aging are still unknown. / This study gave a new insight into the link between histone PTMs and brain aging. It could provide the experimental evidence for future studies and help us to better understand aging or neurodegenerative disease at epigenetic level. Furthermore, it could benefit for setting up the strategies for epigenetic therapy to neurodegenerative disease. / Wang, Chunmei. / Adviser: Ngai Saiming. / Source: Dissertation Abstracts International, Volume: 73-01, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2009. / Includes bibliographical references (leaf 136). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Brain--Aging Histones Mice as laboratory animals Post-translational modification Aging--physiology Brain--physiology Disease Models, Animal Histones Mice Protein Processing, Post-Translational
77	Modifications de la chromatine associées à la sénescence cellulaire / Chromatin modifications associated with cellular senescence Contrepois, Kévin 03 July 2012 (has links) La sénescence cellulaire est une réponse à un stress des cellules de mammifère caractérisée par un arrêt durable du cycle cellulaire. Celle-ci peut être déclenchée par un dysfonctionnement des télomères, des stress génotoxiques et l’activation d’oncogènes. La sénescence constitue une puissante ligne de défense contre le développement de cancers et intervient aussi dans le vieillissement. Les cellules en sénescence réorganisent leur génome par l’assemblage en hétérochromatine sous forme de SAHFs (senescence-associated heterochromatin foci). Nous avons mis en évidence que la désacétylation globale de H4-K16Ac par la désacétylase SIRT2 est impliquée dans l’assemblage de l’hétérochromatine en sénescence. De plus, nous avons identifié une accumulation de variants d’histones H2A et H2B spécifiquement dans des cellules en sénescence présentant des dommages persistants à l’ADN. Ces variants d’histone pourraient avoir des fonctions spécifiques dans ces cellules et pourraient représenter un biomarqueur du vieillissement in vivo.Mes travaux apportent des éléments pour la compréhension des rôles de l’information épigénétique dans la sénescence cellulaire. / Cellular senescence is a stress response of mammalian cells characterized by a stable cell proliferation arrest. It can be triggered by telomere dysfunction, genotoxic stress and oncogene activation. Cellular senescence acts as a natural barrier against cancer development and is involved in ageing. Senescent cells reorganize their genome by the assembly of chromatin into senescence-associated heterochromatin foci (SAHF). We showed that SIRT2-mediated global deacetylation of H4-K16Ac is involved in heterochromatin assembly in senescence. Moreover, we identified the accumulation with time of specific H2A and H2B variants in senescence triggered by persistent DNA damage signaling. These histone variants could have specific functions in senescent cells and could be a useful ageing biomarker in vivo.This work provides novel insights into chromatin modification and epigenetic regulation in cellular senescence. Sénescence cellulaire Hétérochromatine Spectrométrie de masse Variant d’histone Cellular senescence Heterochromatin Mass spectrometry Histone post-translational modification Histone variant
78	Regulation of TGF-β Signaling by Post-Translational Modifications Lönn, Peter January 2010 (has links) Transforming growth factor-β (TGF-β) signaling is initiated when the ligand binds to type II and type I serine/threonine kinase receptors at the cell surface. Activated TGF-β type I receptors phosphorylate R-Smads which relocate, together with co-Smads, to the cell nucleus and regulate transcription. Enhancement or repression of Smad-specific gene targets leads to intracellular protein compositions which organize functional complexes and thus govern cellular processes such as proliferation, migration and differentiation. TGF-β/Smad signaling relays are regulated by various post-translational modifications. From receptors to gene promoters, intricate interplays between phosphorylation, acetylation, ubiquitination and numerous other modifications, control Smad signaling initiation and duration. However, many steps in the cascade, including receptor internalization, Smad nuclear shuttling and transcriptional termination, still remain elusive. The open gaps in our understanding of these mechanisms most likely involve additional post-translational regulations. Thus, the aim of the present investigation was to identify novel modulators of TGF-β/Smad signaling. In the first part of this thesis, we show the importance of ADP-ribosylation in Smad-mediated transcription. We identified poly(ADP-ribose) polymerase 1 (PARP-1) as a Smad interacting protein. Our work revealed that PARP-1 forms direct interactions with Smad3/4, and PARylates residues in their MH1 domains. This modification restricts Smads from binding to DNA and attenuates Smad-activated transcription. PARylation is reversed by the glycohydrolase PARG. We provide evidence that PARG can de-ADP-ribosylate Smads, which enhances Smad-promoted gene regulation. In the second part, we examine a Smad-dependent gene target of TGF-β signaling, salt inducible kinase 1 (SIK). After induction, SIK cooperates with Smad7 and Smurf2 to downregulate the TGF-β type I receptor. The mechanism relies on both the kinase and UBA domain of SIK as well as the E3-ligase activity of Smurf2. In summary, we have unveiled two enzyme-dependent TGF-β/Smad modulatory mechanisms; SIK promoted receptor turnover and PARP-1/PARG-regulated Smad signaling. TGF-β Smad PARP-1 PARG ALK5 SIK signal transduction transcription post-translational modification phosphorylation ubiquitin ADP-ribosylation DNA-binding receptor degradation Cell and molecular biology Cell- och molekylärbiologi
79	Site Directed Mutagenesis, Expression and Enzymatic Studies of the 60 kDa Human HIV-TAT 1 Interactive Protein, TIP60 Elangwe, Emilia N 17 July 2009 (has links) Tip60 is a 60 kDa nuclear protein which exists in three isoforms, belongs to the MYST/HAT family of proteins and was discovered after its interaction with the Human HIV-1 Tat. As a nuclear protein, Tip60 can act as a coactivator or repressor. To understand the HAT action of Tip60, two possible catalytic models exist; the ping-pong and the ternary complex formation models. In correlation with the exploration of HAT catalytic action, mutations of a Cys to Ala and a Glu to Gln on Esa1 (yeast homolog of Tip60 and MYST/HAT prototype), was reported to show wild type-like and decreased acetylating properties, respectively. In this work, Tip60 HAT action was explored. In Tip60, the Cys in the active site is important for acetylation of the H4(1-20) substrate and the Glu showed semi loss in acetylating the H4(1-20) peptide substrate. These data highlight a unique mechanism of Tip60 catalysis. Tip60 Site-directed mutagenesis HATs His-tagged Protein Expression HAT assay Post-translational modification Tip60 catalysis Chromatin modification Histones Chromatin MYST family HATs Histone acetylation and HAT inhibitors
80	Membrane remodeling in epsilon proteobacteria and its impact on pathogenesis Cullen, Thomas Wilson 17 July 2012 (has links) Bacterial pathogens assemble complex surface structures in an attempt to circumvent host immune detection. A great example is the glycolipid known as lipopolysaccharide or lipooligosaccharide (LPS), the major surface molecule in nearly all gram-negative organisms. LPS is anchored to the bacterial cell surface by a anionic hydrophobic lipid known as lipid A, the major agonist of the mammalian TLR4-MD2 receptor and likely target for cationic antimicrobial peptides (CAMPs) secreted by host cells (i.e. defensins). In this work we investigate LPS modification machinery in related ε-proteobacteria, Helicobacter pylori and Campylobacter jejuni, two important human pathogens, and demonstrate that enzymes involved in LPS modification not only play a role in evasion of host defenses but also an unexpected role in bacterial locomotion. More specifically, we identify the enzyme responsible for 4'-dephosphorylation of H. pylori lipid A, LpxF. Demonstrating that lipid A depohsphorylation at the 1 and 4'-positions by LpxE and LpxF, respectively, are the primary mechanisms used by H. pylori for CAMP resistance, contribute to attenuated TRL4-MD2 activation and are required for colonization of a the gastric mucosa in murine host. Similarly in C. jejuni, we identify an enzyme, EptC, responsible for modification of lipid A at both the 1 and 4'-positions with phosphoethanolamine (pEtN), also required for CAMP resistance in this organism. Suprisingly, EptC was found to serve a dual role in modifying not only lipid A with pEtN but also the flagellar rod protein FlgG at residue Thr75, required for motility and efficient flagella production. This work links membrane biogenesis with flagella assembly, both shown to be required for colonization of a host and adds to a growing list of post-translational modifications found in prokaryotes. Understanding how pathogens evade immune detection, interphase with the surrounding environment and assemble major surface features is key in the development of novel treatments and vaccines. / text Lipid A Lipopolysaccharide Lipooligosacharide Antimicrobial peptide Membrane Post-translational modification Flagella Innate immunity Motility Toll-like receptor Pathogenesis Helicobacter pylori Campylobacter jejuni

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