• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 2
  • 1
  • 1
  • 1
  • Tagged with
  • 5
  • 5
  • 5
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Hox Specificity: Constrained vs. Flexible Requirements for the PBC and MEIS Cofactors

Uhl, Juli D. 17 October 2014 (has links)
No description available.
2

CIS REGULATORY MODULE DISCOVERY IN TH1 CELL DEVELOPMENT

Ganakammal, Satishkumar Ranganathan January 2010 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Immune response enables the body to resist foreign invasions. The Inflammatory response is an important aspect in the immune response which is articulated by elements such as cytokines, APC, T-cell and B-cell, effector cell or natural killer. Of these elements, T-cells especially T-helper cells; a sub class of T-cells plays a pivotal role in stimulating the immune response by participating in various biological reactions such as, the transcription regulatory network. Transcriptional regulatory mechanisms are mediated by a set of transcription factors (TFs), that bind to a specific region (motifs or transcription factor binding sites, TFBS), on the target gene(s) controlling the expression of genes that are involved in T-helper cell mediated immune response. Eukaryotic regulatory motifs, referred to as cis regulatory modules (CRMs) or cistrome, co-occur with the regulated gene’s transcription start site (TSS) thus, providing all the essential components for building the transcriptional regulatory networks that depends on the relevant TF-TFBS interactions. Here, we study IL-12 stimulated transcriptional regulators in STAT4 mediated T helper 1 (Th1) cell development by focusing on the identification of TFBS and CRMs using a set of Stat4 ChIP-on-chip target genes. A region containing 2000 bases of Mus musculus sequences with the Stat4 binding site, derived from the ChIP-on-chip data, has been characterized for enrichment of other motifs and, thus CRMs. Our experiments identify some potential motifs, (such as NF-κB and PPARγ/RXR) being enriched in the Stat4 binding sequences compared to neighboring background sequences. Furthermore, these predicted CRMs were observed to be associated with biologically relevant target genes in the ChIP-on-chip data set by meaningful gene ontology annotations. These analyses will enable us to comprehend the complicated transcription regulatory network and at the same time categorically analyze the IL-12 stimulated Stat4 mediated Th1 cell differentiation.
3

Caracterização molecular do módulo regulador TT (Traqueia-Tórax) de >Drosophila melanogaster / Molecular characterization of the Drosophila melanogaster TT (Trachea-Torax) cis-regulatory module

Wester, Jorge Victor Wilfredo Cachay 07 November 2016 (has links)
Estudos funcionais anteriores identificaram um módulo cis-regulador (MCR) de 67 pb (-253/- 187) na região promotora do gene de pufe de DNA BhC4-1 que dirige a expressão do gene repórter na glândula anelar de Drosophila melanogaster. Uma análise bioinformática identificou 67 sequências de D. melanogaster que são similares a sequências contidas no MCR de glândula anelar. Uma das sequências identificadas reside em um fragmento genômico de 657 pb localizado aproximadamente 2500 pb à montante do CG13711, 400 pb à montante do CG12493, em uma região genômica que constitui um dos íntrons do CG32239 (Gef64C). A caracterização preliminar de três linhagens transformadas com a construção 657 pb-lacZ mostrou expressão do gene repórter no sistema traqueal de larvas e prépupas e no tórax de adultos. Baseado padrão de expressão promovido por este MCR, o mesmo foi denominado Traqueia-Tórax (TT). O principal objetivo do presente trabalho constituiu estender a caracterização molecular das linhagens da série TT-lacZ. Inicialmente embriões, larvas de primeiro, segundo e terceiro estádio, prépupas 0 h, 1 h e 2 h, pupas 24 h e adultos com 1, 3 e 5 dias foram investigados quanto ao padrão de expressão do repórter utilizando ensaio histoquímico que detecta atividade de ?-galactosidase. A expressão do gene repórter é inicialmente detectada no sistema traqueal durante o terceiro estádio larval e continua a ser detectada neste tecido em prépupas 0 h, 1 h e 2 h e pupas 24 h. Em adultos, a expressão do gene repórter é verificada nos músculos longitudinais dorsais em adultos de 3 e 5 dias. Uma vez que o MCR TT reside em uma região intergênica e a informação disponível sobre os CGs próximos ainda é escassa, não foi possível inferir qual dos CGs é regulado pelo MCR TT. Neste contexto, o padrão de expressão do RNAm do gene repórter lacZ e do CG13711, CG12493 e CG32239 foi investigado no sistema traqueal de larvas e prépupas e no tórax de adultos de uma das linhagens da série TT-lacZ utilizando RT-qPCR. Os níveis de expressão do RNAm lacZ aumentam cerca de 3 vezes em prépupas 0 horas, quando comparados com os níveis de expressão do RNAm lacZ presentes no sistema traqueal de larvas de terceiro estádio. Um padrão de expressão similar foi observado no caso do CG32239 e do CG13711. Nos tóraxes de adultos de 3 e 5 dias de idade os níveis de expressão do RNAm lacZ aumentam cerca de 37 vezes e 11 vezes, respectivamente, quando comparados aos níveis de expressão iv do RNAm lacZ presentes nos tóraxes de adultos de 1 dia. No tórax de adultos, o único CG que apresenta um padrão de expressão similar ao padrão de expressão de lacZ constitui o CG12493. Em conjunto, nós concluímos que o MCR TT promove um padrão dinâmico de expressão durante o desenvolvimento. Além disso, com base nos resultados de RT-qPCR, nós sugerimos que o MCR TT regula a expressão do RNAm do CG32239 no sistema traqueal durante a transição larva-prépupa e também a expressão do RNAm do CG12493 no tórax de adultos de 3 e 5 dias de idade. Além de estender a caracterização funcional de um novo MCR, nossos resultados também contribuem com novas informações acerca dos padrões de expressão no desenvolvimento de três CGs de D. melanogaster. / Previous functional studies identified in the DNA puff BhC4-1 promoter region a 67 bp (- 253/-187) cis-regulatory module (CRM) that drives reporter gene expression in the ring gland of D. melanogaster. A bioinformatics analysis identified 67 Drosophila melanogaster sequences that are similar to sequences contained in the ring gland CRM. One of the identified sequences resides in a 657 bp genomic fragment located about 2500 bp upstream CG13711, about 400 bp upstream CG12493, in a genomic region that constitutes one of the introns of CG32239 (Gef64C). The preliminary characterization of three transgenic lines transformed with a 657 bp-lacZ construct revealed reporter gene expression in the larval/prepupal tracheal system and in adult thorax. Based on the pattern of expression driven by this CRM we named it Trachea-Thorax (TT). The main goal of this work was to extend the molecular characterization of the lines of the TT-lacZ series. Initially ?-galactosidase histochemical assays were performed in embryos, first, second and third instar larvae, 0h, 1h and 2h prepupae, 24 h pupae and 1, 3 and 5 days old adults. Reporter gene expression is initially detected during the third larval instar in the tracheal system and continues to be detected in this tissue at 0 h, 1h and 2 h prepupa and, 24 h pupa. During the adult stage, reporter gene expression is verified in the dorsal longitudinal muscles of 3 and 5 days old adults. Since the TT CRM lies in an intergenic region and the available information about the nearby CGs is still scarce it was not possible to infer which of the CGs is regulated by the TT CRM. In this context, the mRNA pattern of expression of the lacZ reporter gene and of CG13711, CG12493 and CG32239 was investigated in the tracheal system of both larvae and prepupae and in adult thoraxes of one of the transgenic lines of the TT-lacZ series using RTqPCR. The lacZ mRNA expression levels increase about 3 times in 0 h prepupae when compared to the lacZ mRNA expression levels present in the tracheal system of third instar larvae. A similar pattern of expression was observed for both CG32239 and CG13711. In three and five days old adult thoraxes lacZ mRNA expression levels increase about 37 times and 11 times, respectively, when compared to lacZ mRNA expression levels present in one day old thoraxes. In the adult thorax, the only CG that presents a similar pattern of expression constitutes CG12493. Overall, we conclude that the TT CRM drives a dynamic pattern of ii expression throughout development. Additionally, based on RT-qPCR results, we suggest that the TT CRM regulates the expression of CG32239 mRNA in the tracheal system during the larvae to prepupae transition, as well as the expression of CG12493 mRNA in the thorax of 3 and 5 days old adults. Besides extending the functional characterization of a novel CRM our results also contribute new information about the developmental patterns of expression of three Drosophila melanogaster CGs.
4

Mise en place de l'identité musculaire durant la myogenèse embryonnaire chez la drosophile / Establishment of muscle identity during embryonic myogenesis in Drosophila

Carayon, Alexandre 06 April 2018 (has links)
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouvements propres à chaque espèce animale. L'établissement du patron musculaire a lieu au cours du développement embryonnaire durant le processus de myogenèse. Il a été décomposé en quatre étapes chez la drosophile : la spécification de groupes de myoblastes équivalents (groupes promusculaires) à des positions précises du mésoderme, la sélection d'une ou plusieurs cellules progéniteurs à partir de chaque groupe, la division asymétrique des progéniteurs en cellules fondatrices des muscles, et enfin, la fusion d'une cellule fondatrice avec un nombre défini de myoblastes compétents pour la fusion qui forme une myofibre syncytiale. Ce processus aboutit à la mise en place d'un patron stéréotypé de muscles morphologiquement distincts par leur taille, orientation, forme, et sites d'attachement au squelette ; ces caractères définissant l'identité du muscle. Chez la drosophile, chacun des 30 muscles par hémisegment de la larve est constitué d'une seule myofibre. Il a été proposé que l'identité morphologique de cette fibre soit contrôlée par une combinatoire de facteurs de transcription identitaires (FTi) exprimés par la cellule fondatrice. Mon projet de thèse a porté sur le contrôle transcriptionnel de l'identité musculaire, avec comme modèle d'étude, un muscle dorso-latéral de la larve de drosophile, le muscle DA3 dont un FTi est Collier/EBF (Col). La transcription de col est activée dans un groupe promusculaire, puis transitoirement dans les quatre progéniteurs issus de ce groupe, avant d'être maintenue spécifiquement dans la myofibre DA3. Dans des embryons mutants pour col, le DA3 est transformé en muscle plus dorsal, DA2. Les travaux précédents de l'équipe ont montré que la transcription de col dans le lignage DA3 est contrôlée par deux modules cis-régulateurs, EarlyCRM et LateCRM, séparés physiquement sur le chromosome et agissant séquentiellement. Leur chevauchement temporel d'activité restreint au progéniteur DA3 et l'autorégulation directe du LateCRM ont mené à l'hypothèse d'un mécanisme de " passage de témoin " entre ces deux CRM, spécifique au progéniteur DA3. L'objectif de ma thèse était de tester cette hypothèse et de comprendre comment une information temporelle et spatiale intégrée par un CRM est transmise à un autre CRM, pour définir une identité cellulaire, une question fondamentale au-delà du cas d'espèce que constitue le muscle DA3.[...] / The morphological diversity of skeletal muscles allows the precision and coordination of movements specific to each animal species. Establishment of a stereotypic pattern of muscles takes places during the process of myogenesis. Studies in Drosophila, an insect model, have identified four steps in this process: the specification of equivalence groups of myoblasts (promuscular clusters) at defined positions within the somatic mesoderm, the selection of progenitor(s) from each group, asymmetric division of each progenitor into post-mitotic muscle founder cells, and finally the fusion of each founder cell with a given number of fusion competent cells to form a syncytial myofiber. This dynamic, integrated process leads to establishing a stereotyped pattern of morphologically distinct muscles which can each be distinguished, based on size, orientation, shape, sites of attachment to the skeleton, all properties defining muscle identity. In the Drosophila larva, each of the about 30 different muscles per hemisegment is made of a single myofiber. It has been proposed that final morphology of a myofiber reflects the combinatorial code of identity Transcription Factors (iTF) expressed by its founder cell, although many questions remain unanswered. My thesis project aimed at better understanding the mechanism of specification of muscle identity, using as model a dorso-lateral muscle of the Drosophila larva, the DA3 muscle whose identity is controlled by the Collier/EBF (Col) iTF. col transcription is activated in one promuscular cluster, transient in the 4 progenitors issued from this cluster and stably maintained in the DA3 myofiber. In col mutant embryos, the DA3 muscle is transformed into a more dorsal, DA2-like muscle. Previous work has shown that col transcription in the DA3 lineage is controlled by two cis-regulatory modules (EarlyCRM and LateCRM), physically distant on the chromosome and acting sequentially. The temporal overlap of EarlyCRM and LateCRM in the DA3 progenitor and direct col autoregulation via the LateCRM led to hypothesize a handover between the two CRM in the DA3 progenitor. One goal of my thesis project was to challenge this hypothesis and understand how positional and temporal information integrated by EarlyCRM could be memorized via LateCRM, in order to specify cell identity, a fundamental question of developmental biology beyond the specific case of the Drosophila DA3 muscle. [...]
5

Caracterização molecular do módulo regulador TT (Traqueia-Tórax) de >Drosophila melanogaster / Molecular characterization of the Drosophila melanogaster TT (Trachea-Torax) cis-regulatory module

Jorge Victor Wilfredo Cachay Wester 07 November 2016 (has links)
Estudos funcionais anteriores identificaram um módulo cis-regulador (MCR) de 67 pb (-253/- 187) na região promotora do gene de pufe de DNA BhC4-1 que dirige a expressão do gene repórter na glândula anelar de Drosophila melanogaster. Uma análise bioinformática identificou 67 sequências de D. melanogaster que são similares a sequências contidas no MCR de glândula anelar. Uma das sequências identificadas reside em um fragmento genômico de 657 pb localizado aproximadamente 2500 pb à montante do CG13711, 400 pb à montante do CG12493, em uma região genômica que constitui um dos íntrons do CG32239 (Gef64C). A caracterização preliminar de três linhagens transformadas com a construção 657 pb-lacZ mostrou expressão do gene repórter no sistema traqueal de larvas e prépupas e no tórax de adultos. Baseado padrão de expressão promovido por este MCR, o mesmo foi denominado Traqueia-Tórax (TT). O principal objetivo do presente trabalho constituiu estender a caracterização molecular das linhagens da série TT-lacZ. Inicialmente embriões, larvas de primeiro, segundo e terceiro estádio, prépupas 0 h, 1 h e 2 h, pupas 24 h e adultos com 1, 3 e 5 dias foram investigados quanto ao padrão de expressão do repórter utilizando ensaio histoquímico que detecta atividade de ?-galactosidase. A expressão do gene repórter é inicialmente detectada no sistema traqueal durante o terceiro estádio larval e continua a ser detectada neste tecido em prépupas 0 h, 1 h e 2 h e pupas 24 h. Em adultos, a expressão do gene repórter é verificada nos músculos longitudinais dorsais em adultos de 3 e 5 dias. Uma vez que o MCR TT reside em uma região intergênica e a informação disponível sobre os CGs próximos ainda é escassa, não foi possível inferir qual dos CGs é regulado pelo MCR TT. Neste contexto, o padrão de expressão do RNAm do gene repórter lacZ e do CG13711, CG12493 e CG32239 foi investigado no sistema traqueal de larvas e prépupas e no tórax de adultos de uma das linhagens da série TT-lacZ utilizando RT-qPCR. Os níveis de expressão do RNAm lacZ aumentam cerca de 3 vezes em prépupas 0 horas, quando comparados com os níveis de expressão do RNAm lacZ presentes no sistema traqueal de larvas de terceiro estádio. Um padrão de expressão similar foi observado no caso do CG32239 e do CG13711. Nos tóraxes de adultos de 3 e 5 dias de idade os níveis de expressão do RNAm lacZ aumentam cerca de 37 vezes e 11 vezes, respectivamente, quando comparados aos níveis de expressão iv do RNAm lacZ presentes nos tóraxes de adultos de 1 dia. No tórax de adultos, o único CG que apresenta um padrão de expressão similar ao padrão de expressão de lacZ constitui o CG12493. Em conjunto, nós concluímos que o MCR TT promove um padrão dinâmico de expressão durante o desenvolvimento. Além disso, com base nos resultados de RT-qPCR, nós sugerimos que o MCR TT regula a expressão do RNAm do CG32239 no sistema traqueal durante a transição larva-prépupa e também a expressão do RNAm do CG12493 no tórax de adultos de 3 e 5 dias de idade. Além de estender a caracterização funcional de um novo MCR, nossos resultados também contribuem com novas informações acerca dos padrões de expressão no desenvolvimento de três CGs de D. melanogaster. / Previous functional studies identified in the DNA puff BhC4-1 promoter region a 67 bp (- 253/-187) cis-regulatory module (CRM) that drives reporter gene expression in the ring gland of D. melanogaster. A bioinformatics analysis identified 67 Drosophila melanogaster sequences that are similar to sequences contained in the ring gland CRM. One of the identified sequences resides in a 657 bp genomic fragment located about 2500 bp upstream CG13711, about 400 bp upstream CG12493, in a genomic region that constitutes one of the introns of CG32239 (Gef64C). The preliminary characterization of three transgenic lines transformed with a 657 bp-lacZ construct revealed reporter gene expression in the larval/prepupal tracheal system and in adult thorax. Based on the pattern of expression driven by this CRM we named it Trachea-Thorax (TT). The main goal of this work was to extend the molecular characterization of the lines of the TT-lacZ series. Initially ?-galactosidase histochemical assays were performed in embryos, first, second and third instar larvae, 0h, 1h and 2h prepupae, 24 h pupae and 1, 3 and 5 days old adults. Reporter gene expression is initially detected during the third larval instar in the tracheal system and continues to be detected in this tissue at 0 h, 1h and 2 h prepupa and, 24 h pupa. During the adult stage, reporter gene expression is verified in the dorsal longitudinal muscles of 3 and 5 days old adults. Since the TT CRM lies in an intergenic region and the available information about the nearby CGs is still scarce it was not possible to infer which of the CGs is regulated by the TT CRM. In this context, the mRNA pattern of expression of the lacZ reporter gene and of CG13711, CG12493 and CG32239 was investigated in the tracheal system of both larvae and prepupae and in adult thoraxes of one of the transgenic lines of the TT-lacZ series using RTqPCR. The lacZ mRNA expression levels increase about 3 times in 0 h prepupae when compared to the lacZ mRNA expression levels present in the tracheal system of third instar larvae. A similar pattern of expression was observed for both CG32239 and CG13711. In three and five days old adult thoraxes lacZ mRNA expression levels increase about 37 times and 11 times, respectively, when compared to lacZ mRNA expression levels present in one day old thoraxes. In the adult thorax, the only CG that presents a similar pattern of expression constitutes CG12493. Overall, we conclude that the TT CRM drives a dynamic pattern of ii expression throughout development. Additionally, based on RT-qPCR results, we suggest that the TT CRM regulates the expression of CG32239 mRNA in the tracheal system during the larvae to prepupae transition, as well as the expression of CG12493 mRNA in the thorax of 3 and 5 days old adults. Besides extending the functional characterization of a novel CRM our results also contribute new information about the developmental patterns of expression of three Drosophila melanogaster CGs.

Page generated in 0.0618 seconds