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Bases structurales de la régulation des cytokines par les héparanes sulfates : régulation génique et optimisation d’un inhibiteur de l’interféron-gamma. / Structurale base of the regulation of cytokines by the heparan sulfates : genetic regulation and optimisation of an inhibitor of interferon gamma.Saesen, Els 29 January 2013 (has links)
L'interferon-γ (IFNγ) est une cytokine immunomodulatrice puissante, également dotée d'une activité antivirale. Il possède deux ligands de haute affinité : un récepteur par lequel il transmet ses signaux et des polysaccharides complexes de la famille des héparanes sulfates (HS), tous deux situés à la surface cellulaire. In vivo, la liaison aux HS permet de concentrer localement la cytokine et de réguler son activité biologique par le biais d'une protection partielle du domaine C-terminal de la protéine. Ce domaine C-terminal, caractérisé par deux domaines basiques D1 et D2, est impliqué dans la reconnaissance du récepteur et des HS. Dans ce contexte, nos travaux se sont attachés à définir les aspects structuraux de l'interaction de l'IFNg, et plus précisément de son extrémité C-terminale, avec ses deux ligands. Pour cela, de divers mutants ponctuels, multiples et de délétion de l'IFNg ont été produites, purifiées et étudiées. Leur capacité à lier les HS et le récepteur de l'IFNg est déterminée par SPR puis leur influence sur l'activité antivirale de l'IFNg est déterminée. Les paramètres thermodynamiques de l'interaction IFNg:HS-oligosaccharides sont investigués. Par ailleurs, nous avons préparé une banque oligosaccharidique dérivée d'HS. Le criblage de cette banque, pour sa capacité à lier l'IFNγ, a permis de démontrer que l'IFNg reconnaissait des motifs de sulfatation particuliers. Finalement, nous avons tenté de cristallisé le complexe IFNg:HS-oligosaccharide, jusqu'à présent sans obtention de cristaux qui diffractent. Ces différentes approches visent à élucider le mécanisme de reconnaissance d'IFNg par des HS. Ceci afin de concevoir un mime de ce site d'interaction inhibant la signalisation de l'IFNg. Enfin, une compréhension plus détaillé de l'interaction de l'IFNg avec les HS et son récepteur reste à établir afin d'entièrement comprendre comment l'IFNg migre des HS vers l'IFNgR. / Interferon-γ (IFNγ) is a strong immunomodulating cytokine with some antiviral activity. It has two ligands for which it has high affinities: a receptor through which it transmits its signals, and complex polysaccharides of the heparan sulphate (HS) family. Both are situated on the cellular surface. In vivo, binding on the HS permits local concentration of the cytokine, and regulates its biological activity via a partial protection of the C-terminal region. This C-terminal region, characterised by two basic domains, D1 and D2, is implicated in the recognition of the receptor and the HS. In this context, we investigated the structural features for the interaction of IFNγ, and more specifically the importance of his C-terminus, with both of his cellular ligands. Therefore, we produced, purified and examined various mutants of IFNγ, including points, multiples and deletions mutants. There ability to bind to HS and the IFNγ receptor is examined by SPR and there influence on IFNγ's antiviral activity is determined. The thermodynamics complexation of IFNγ with the HS-oligosaccharides is examined. Moreover, we have prepared an oligosaccharidic library derived from HS. By screening this library for its capacity to bind IFNγ, we have demonstrated that the cytokine recognizes a particular sulphated pattern. Finely, we tried to crystallize the IFNγ:HS-oligosaccharide complex, without obtaining diffracting crystals yet. These studies contribute to clarify the mechanism of recognition of IFNγ by the HS. This would enable us to design a mimic of the interaction site for IFNγ on the HS, who inhibits inappropriate signaling of the cytokine. Finely, a detailed comprehension of the interaction of IFNγ with his receptor and with the HS needs to be established to fully understand how IFNγ migrates for the HS to its receptor.
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The reception of Psalm 118 in the New Testament : application of a “New Exodus Motif”?Kwon, Hyukjung 17 October 2007 (has links)
Please read the abstract in the section 00front of this document / Thesis (PhD (New Testament Studies))--University of Pretoria, 2007. / New Testament Studies / PhD / unrestricted
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Motif Selection Using Simulated Annealing Algorithm with Application to Identify Regulatory ElementsChen, Liang 27 September 2018 (has links)
No description available.
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Hardware Implementation of the Expectation Maximization Algorithm for Motif FindingKoneru, Sushma January 2009 (has links)
No description available.
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The role of the dileucine motif in Helix VIII of the BLT1 receptor and RhoA in neutrophil degranulationHaider, Waqar Yunus January 2010 (has links)
Neutrophil degranulation involves a number of well-orchestrated structural and biochemical events. We have investigated the mechanism of intracellular signalling involved in neutrophil degranulation that was mediated by the high affinity leukotriene (LT)B[subscript 4] receptor, BLT1. The model systems used were consisted of Peripheral blood neutrophils as well as promyeloid PLB-985 cells, stably transfected with human BLT1 cDNA (PLB-BLT) or a substitution mutant (2L(304-305)/A) of the distal dileucine motif in helix VIII of BLT1, and differentiated into a neutrophil-like phenotype. The degranulation of these cells was measured in the presence and absence of factors that would affect the signaling pathway. The results show that Degranulation responses to LTB[subscript 4] were similar for differentiated PLB-BLT1 and neutrophils. However, the degranulation response of cells bearing the dileucine mutation in helix VIII of BLT1 was significantly reduced in response to LTB[subscript 4]. Pretreatment of differentiated PLB-BLT1 cells and neutrophils with Y-27632, a pharmacological inhibitor of p160-ROCK, the down-stream effector of the small GTPase RhoA, abrogated their degranulation in response to LTB[subscript 4]. The degranulation defect observed with the dileucine mutation was corrected by transient transfection of the cells bearing the mutation with a constitutively active form of RhoA. Taken together, our results suggest an essential role for the distal dileucine motif in helix VIII of BLT1 involving RhoA which allows normal neutrophil degranulation in response to LTB[subscript 4].
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Affinement des structures cristallinesBassi, Gérard 15 March 1966 (has links) (PDF)
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Defining the Role of Secondary DNA Structures and Transcription Factors on the Transcriptional Control of the HIF-1alpha and VEGF PromotersUribe, Diana Judith January 2011 (has links)
Angiogenesis is known to be induced and maintained in tumors by the constant expression of the hypoxia inducible factor 1 alpha (HIF-1α) and human vascular endothelial growth factor (VEGF). In fact, tumor recurrence, aggressive metastatic legions and patient mortality rates are known to be positively correlated with overexpression of these two proteins. The HIF-1α and VEGF promoters contain a polypurine/polypyrimidine (pPu/pPy) tract, which are known to play critical roles in their transcriptional regulation, and are structurally dynamic where they can undergo a conformational transition between B-DNA, single stranded DNA and atypical secondary DNA structures such as G-quadruplexes and i-motifs. We hypothesize that the i-motif and G-quadruplex structures can form within the pPu/pPy tracts of the HIF-1α and VEGF proximal promoters, which play important roles in the transcriptional regulation of these genes by acting as scaffolds for alternative transcription factor binding sites. The purpose of this dissertation was to elucidate the transcriptional regulation of the HIF-1α and VEGF genes through the atypical DNA structures that form within the pPu/pPy tracts of their proximal promoters. We investigated the interaction of the C-rich and guanine-rich (G-rich) strands of both of these tracts with transcription factors heterogeneous nuclear ribonucleoprotein (hnRNP) K and nucleolin, respectively, both in vitro and in vivo and their potential role in the transcriptional control of HIF-1α and VEGF. In this dissertation, we demonstrate that both nucleolin and hnRNP K bind selectively to the G- and C-rich sequences, respectively, in the pPu/pPy tract of the HIF-1α and VEGF promoters. Specifically, the small interfering RNA-mediated silencing of either nucleolin or hnRNP K resulted in the down-regulation of basal VEGF gene, and the opposite effect was seen when the transcription factors were overexpressed, suggesting that they act as activators of VEGF transcription. Taken together, the identification of transcription factors that can recognize and bind to atypical DNA structures within pPu/pPy tracts will provide new insight into mechanisms of transcriptional regulation of the HIF-1α and VEGF gene.
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Étude des interactions entre les boucles D et T chez les ARNs de transfert (ARNts)Doyon, Félix January 2007 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Structural rules for the formation of backbone-backbone interactions between closely packed RNA double helicesTao, Fatou 04 1900 (has links)
Les interactions entre les squelettes sucre-phosphate de nucléotides jouent un rôle important dans la stabilisation des structures tertiaires de larges molécules d’ARN. Elles sont régies par des règles particulières qui gouverne leur formation mais qui jusque là demeure quasiment inconnues. Un élément structural d’ARN pour lequel les interactions sucre-phosphate sont importantes est le motif d’empaquetage de deux doubles hélices d’ARN le long du sillon mineur. Ce motif se trouve à divers endroits dans la structure du ribosome. Il consiste en deux doubles hélices interagissant de manière à ce que le squelette sucre-phosphate de l’une se niche dans le sillon mineur de l’autre et vice versa. La surface de contact entre les deux hélices est majoritairement formée par les riboses et implique au total douze nucléotides. La présente thèse a pour but d’analyser la structure interne de ce motif et sa dépendance de stabilité résultant de l’association optimale ou non des hélices, selon leurs séquences nucléotidiques. Il est démontré dans cette thèse qu’un positionnement approprié des riboses leur permet de former des contacts inter-hélices, par l’entremise d’un choix particulier de l’identité des pairs de bases impliquées. Pour différentes pairs de bases participant à ce contact inter-hélices, l’identité optimale peut être du type Watson-Crick, GC/CG, or certaines pairs de bases non Watson-Crick. Le choix adéquat de paires de bases fournit une interaction inter-hélice stable. Dans quelques cas du motif, l’identité de certaines paires de bases ne correspond pas à la structure la plus stable, ce qui pourrait refléter le fait que ces motifs devraient avoir une liberté de formation et de déformation lors du fonctionnement du ribosome. / Although backbone-backbone interactions play an important role in stabilization of the tertiary structure of large RNA molecules, the particular rules that govern the formation of these interactions remain basically unknown. One RNA structural element for which the backbone-backbone interactions are essential is the along-groove packing motif. This motif is found in numerous locations in the ribosome structure; it consists of two double helices arranged such that the backbone of one helix is packed in the minor groove of the other helix and vice versa. The contact area between the two helices is mostly formed by riboses and totally involves twelve nucleotides. Here we analyze the internal structure of the along-groove packing motif and the dependence of stability of the association of the helices on their nucleotide sequences. We show that the proper positioning of the riboses that allows them to form inter-helix contacts is achieved through the particular choice of the identities of the base pairs involved. For different base pairs participating in the inter-helix contacts the optimal identities can be Watson-Crick, GC/CG, or certain non-Watson-Crick base pairs. The proper choice of the base pairs provides for the stable inter-helix interaction. In some cases of the motif, the identities of certain base pairs do not correspond to the most stable structure, which may reflect the fact that these motifs should break and form during the ribosome function.
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Novel stochastic and entropy-based Expectation-Maximisation algorithm for transcription factor binding site motif discoveryKilpatrick, Alastair Morris January 2015 (has links)
The discovery of transcription factor binding site (TFBS) motifs remains an important and challenging problem in computational biology. This thesis presents MITSU, a novel algorithm for TFBS motif discovery which exploits stochastic methods as a means of both overcoming optimality limitations in current algorithms and as a framework for incorporating relevant prior knowledge in order to improve results. The current state of the TFBS motif discovery field is surveyed, with a focus on probabilistic algorithms that typically take the promoter regions of coregulated genes as input. A case is made for an approach based on the stochastic Expectation-Maximisation (sEM) algorithm; its position amongst existing probabilistic algorithms for motif discovery is shown. The algorithm developed in this thesis is unique amongst existing motif discovery algorithms in that it combines the sEM algorithm with a derived data set which leads to an improved approximation to the likelihood function. This likelihood function is unconstrained with regard to the distribution of motif occurrences within the input dataset. MITSU also incorporates a novel heuristic to automatically determine TFBS motif width. This heuristic, known as MCOIN, is shown to outperform current methods for determining motif width. MITSU is implemented in Java and an executable is available for download. MITSU is evaluated quantitatively using realistic synthetic data and several collections of previously characterised prokaryotic TFBS motifs. The evaluation demonstrates that MITSU improves on a deterministic EM-based motif discovery algorithm and an alternative sEM-based algorithm, in terms of previously established metrics. The ability of the sEM algorithm to escape stable fixed points of the EM algorithm, which trap deterministic motif discovery algorithms and the ability of MITSU to discover multiple motif occurrences within a single input sequence are also demonstrated. MITSU is validated using previously characterised Alphaproteobacterial motifs, before being applied to motif discovery in uncharacterised Alphaproteobacterial data. A number of novel results from this analysis are presented and motivate two extensions of MITSU: a strategy for the discovery of multiple different motifs within a single dataset and a higher order Markov background model. The effects of incorporating these extensions within MITSU are evaluated quantitatively using previously characterised prokaryotic TFBS motifs and demonstrated using Alphaproteobacterial motifs. Finally, an information-theoretic measure of motif palindromicity is presented and its advantages over existing approaches for discovering palindromic motifs discussed.
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