Global ETD Search

11	Evolution of the troponin I gene family : generation of heart and body-wall muscle troponin I isoforms in the ascidian Ciona intestinalis by alternative splicing from a single gene MacLean, Darren. January 1997 (has links) No description available. Muscle proteins.
12	Experimental analysis of trans-splicing of an ascidian troponin I gene Mortimer, Sandra, 1981- January 2007 (has links) No description available. RNA splicing. Trans-Splicing. Ciona intestinalis -- genetics. Troponin I -- genetics. Muscle proteins.
13	Experimental analysis of trans-splicing of an ascidian troponin I gene Mortimer, Sandra, 1981- January 2007 (has links) I investigated SL trans-splicing in the troponin I gene of Ciona intestinalis. Experimental mutation of the AG dinucleotide adjacent to the natural trans-splice acceptor site (-64) in CiTnI/nuclacZ constructs eliminated trans-splicing to that site in Ciona embryos but activated trans-splicing at cryptic acceptor sites at -76 and -39, adjacent to the nearest AG dinucleotides. However, not all AG dinucleotides specify cryptic acceptor sites because outron internal deletions or 3'truncation mutants were trans-spliced at a far-upstream AG-adjacent cryptic site (-346), leaving many AGs in the retained outron segments. Thus, additional sequence elements that are present only in the -346 and -76/-64/-39 regions are required for cryptic acceptor activity. All mutant constructs generated detectable beta-gal enzyme expression, although the mutant with the longest retained-outron segment appeared less active. Therefore, mRNA accumulation and translation do not require trans-splicing to the natural acceptor site, although they may be facilitated by the normal removal of the outron during trans-splicing. Muscle proteins. RNA splicing. Ciona intestinalis -- genetics. Troponin I -- genetics. Trans-Splicing.
14	Evolution des programmes transcriptionnels développementaux des ascidies Ciona robusta et Phallusia mammillata / Evolution of regulation of ascidian species Madgwick, Alicia 07 November 2017 (has links) Comment la morphogenèse embryonnaire peut-elle être conservée malgré une divergence importante des séquences codantes et non-codantes ? Pour répondre à cette question, nous avons travaillé sur le développement précoce d’ascidies divergentes, Phallusia mammillata et Ciona intestinalis. Ces espèces partagent une morphogénèse pratiquement identique et des lignages cellulaires stéréotypés. Or, leurs génomes sont tellement divergents que leurs séquences ne peuvent pas être alignées.Nous avons choisi d’étudier les cellules précurseuses de l’endoderme au cours de deux processus développementaux conservés : spécification du destin et la gastrulation. Nous avons comparé par hybridation in situ l’expression transcriptionelle des gènes régulateurs orthologues dans Phallusia et Ciona. Nous avons trouvé que l’expression dans l’endoderme de 8 gènes régulateurs impliqués dans ces processus développementaux est qualitativement conservée entre les deux espèces.Pour étudier comment ces gènes ont conservé leur régulation malgré une divergence non-codante importante, nous avons collaboré avec l’équipe Gomez-Skarmeta pour cartographier, par ATAC-seq, la chromatine ouverte dans les deux espèces pour identifier les régions régulatrices actives à l’échelle du génome. 35 sur les 39 séquences ouvertes avoisinant les gènes de l’endoderme ont été trouvé active avant le stade larval, par éléctroporation. La plupart des séquences testées ont conservé leur activité dans les deux espèces malgré la divergence de séquence. Nous avons alors identifié des sites de fixations pour facteurs de transcription potentiels se trouvant dans les enhancers pour l’endoderme pour identifier les régulateurs dans Phallusia et Ciona.Nos résultats suggèrent des changements assez importants de l’ordre des sites de fixations sans pour autant avoir de changement dans l’architecture dans les réseaux de gènes régulateurs ; ceci explique la conservation qualitative de l’expression des gènes entre ces ascidies divergentes. En outre, nous avons trouvé que les shadow enhancers sont plus répandus qu’anticipé. / How can embryonic morphogenesis be evolutionarily conserved in spite of extensive divergence in coding and non-coding genome sequences? To address this question, we worked on the early development of two very divergent ascidians, Phallusia mammillata and Ciona intestinalis. These species share an almost identical early morphogenesis and stereotyped cell lineages. Remarkably, however, their genomes are divergent to the extent that their non-coding sequences cannot be aligned and gene order has not been conserved.We focus our attention on the behaviour of endoderm precursors throughout two important evolutionarily conserved developmental processes: initial fate specification and early gastrulation. We first compared by in situ hybridisation the transcriptional expression of orthologous regulatory genes in Phallusia and in Ciona. We found that the endodermal expression of 8 regulatory genes known to be involved in these developmental processes is qualitatively conserved between the two species.To study how these genes conserved their regulation in spite of extensive non-coding sequence divergence, we collaborated with the Gomez-Skarmeta lab to map, by ATAC-seq, open chromatin regions in both species to identify active regulatory regions genomewide. Three quarters of the 39 open chromatin regions for endodermal genes behaved as active regulatory sequences by the larval stage, when tested by electroporation in embryos. Many of the tested sequences had conserved cis-regulatory activity in both species in spite of sequence divergence. We have identifed putative transcription factor binding sites in endodermal enhancers in both species to identify conserved upstream regulators shared between Phallusia and Ciona.Taken together our results suggest that extensive transcription factor binding site turn over, without radical change in GRNs architecture, may explain the qualitative conservation of gene expression patterns between highly divergent ascidian genomes. Furthermore, we found that shadow enhancers are much more prevalent than initially anticipated.Taken together our results suggest that extensive transcription factor binding site turn over, without radical change in GRNs architecture, may explain the qualitative conservation of gene expression patterns between highly divergent ascidian genomes. Furthermore, we found that shadow enhancers are much more prevalent than initially anticipated. Ascidie Développement Régulation Ciona Phallusia Séquence régulatrice Ascidian Development Regulatory sequence Ciona Phallusia Regulation
15	Studies of the capacity for creatine biosynthesis in the protochordate ciona intestinalis DeLigio, James Thomas. Ellington, W. Ross. January 2005 (has links) Thesis (M.S.)--Florida State University, 2005. / Advisor: Dr. Ross Ellington, Florida State University, College of Arts and Sciences, Dept. of Biological Science. Title and description from dissertation home page (viewed June 8, 2005). Document formatted into pages; contains xiii, 55 pages. Includes bibliographical references.
16	Examination of the Leprecan gene family across the chordates : expression, regulation, and function / Dunn, Matthew Patrick. January 2009 (has links) Thesis (Ph. D.)--Cornell University, May, 2009. / Vita. Includes bibliographical references (leaves 207-228).
17	The Proteomic Response of Sea Squirts (Genus Ciona Congeners) to Heat Stress: Evidence for Differential Thermal Sensitivities Serafini, Loredana 01 January 2011 (has links) (PDF) The sea squirts Ciona intestinalis and C. savignyi have disparate distribution patterns, which may result from differences in their thermal tolerance limits. Because C. intestinalis, an almost cosmopolitan species, has a more widespread distribution, it is thought that it is better adapted to endure a wide range of temperatures. In order to compare the heat stress response between these two congeners, we studied global changes in protein expression, using a proteomics approach. To characterize the response to extreme heat stress, animals of both species were exposed to temperatures of 22°C, 25°C, and 28°C for 6 h, and then were left to recover at a control temperature (13°C) for 16 h. An additional experiment was conducted to assess the effect of mild-to-moderate heat stress including a 6 h exposure to temperatures of 18°C, 20°C, and 23°C, and a 16 h recovery at a control temperature (16°C). A quantitative analysis, using 2D gel electrophoresis and gel-image analysis, showed that in the high heat stress (HHS) experiment, 15% and 18% of the all protein spots detected demonstrated changes in expression in C. intestinalis and C. savignyi, respectively. In the low heat stress (LHS) experiment, 4% of the total number of proteins detected changed significantly in both C. intestinalis and C. savignyi. Using matrix-assisted laser desorption ionization (MALDI) tandem time-of-flight mass spectrometry, we were able to identify proteins with a 65-100% success rate, depending on species. Our results indicate that C. intestinalis maintains higher baseline levels of molecular chaperones and launches a quicker response to thermal stress than C. savignyi, suggesting it may be the more thermally tolerant of the two. In addition, actins, tubulins, and ATP-synthase F1 β-subunits were the most susceptible to proteolytic degradation, which may indicate that they have relatively higher thermal sensitivities. Proteomics heat stress Ciona Molecular Biology Systems Biology
18	The Proteomic Response of Sea Squirts (Genus Ciona Congeners) to Hyposalinity Stress Koman, James S 01 March 2012 (has links) (PDF) The ascidian species Ciona savignyi and C. intestinalis are invasive species but show interspecific differences in their population response to hypo-saline stress associated with heavy winter-run off events that are predicted to become more frequent due to climate change. Despite an almost world-wide distribution, C. intestinalis seems to be more susceptible to hypo-saline stress than the geographically more limited C. savignyi. Given that the genomes of both species are fully sequenced, we were able to compare their proteomic response to both acute and chronic salinity to characterize the mechanisms that are responsible for setting tolerance limits to hyposaline conditions in these two congeneric species. For the acute hypo-saline stress experiment, we exposed each species to decreasing salinities, 100%, 85% and 70% full-strength seawater, for 6 hours followed by a 4-hour recovery at 100%. In the chronic salinity stress experiment, each species was kept at 100% or 85% with individuals removed for analysis during a 16-day time course. Organisms were dissected to remove the tunic, and 2D SDS-PAGE was performed to separate proteins and characterize changes in protein abundances. In the acute experiment, we determined 5% and 19% of the proteins to be significantly changing abundance in C. savignyi and C. intestinalis, respectively, due to the treatment effect. For both species in the chronic experiment, we determined over 40% of the proteins to be significantly changing abundance given the treatment, time, or interaction effect. Analysis of these proteins with MALDI TOF-TOF mass spectrometry has identified numerous proteins implicated in cellular stress responses, including energy metabolism (glycolysis, ATP & NADH production), cytoskeletal restructuring, and protein turnover, providing insights into the intense cellular restructuring that occurs following hypo-saline exposure. Ciona Hyposalinity Proteomics Stress Marine Cellular and Molecular Physiology
19	Mécanismes de régulations transcriptionnelles contrôlant la régionalisation de l'épiderme au cours du développement chez l'Ascidie Ciona intestinalis / Transcriptional regulation mecanisms specifying tail epidermis patterning in Ciona intestinalis development. Roure, Agnes 20 December 2013 (has links) 3 domaines cellulaires définissent l'épiderme de la queue de Ciona intestinalis. Le domaine des lignes médianes, donne naissance à deux structures différenciées larvaires, la nageoire et système nerveux périphérique. Il a été montré que les voies de signalisation BMP et FGF sont respectivement les inducteurs des lignes médianes ventrale et dorsale. Ce travail a consisté en la caractérisation des mécanismes moléculaires, situés à l'interface des signaux inducteurs et des processus de différenciation, définissant l'identité cellulaire des lignes médianes. L'identification des relations épistatiques reliant 7 facteurs de transcription impliqués dans ce processus suggère un fonctionnement en réseau hiérarchisé et place Msxb comme gène clé. Cette hiérarchie est validée par: un atlas d'expression spatio-temporelle, la perte de fonction de Msxb, l'analyse des régions cis-régulatrices de la transcription. Nous avons identifié 2 types d'enhancers, contrôlant respectivement les gènes précoces et tardifs du réseau. L'expression précoce de Msxb dans les précurseurs dorsaux est controlée par un enhancer distinct régulé par la voie FGF relayée par Otx et Nodal. Cette signature transcriptionnelle est retrouvée dans les enhancers de gènes co-exprimés, et chez l'orthologue de Msxb chez une autre ascidie. Enfin, nous montrons que la partie la plus postérieure des lignes médianes constitue un troisième compartiment, déployant un programme génétique distinct. Ce travail nous renseigne sur la structure, les mécanismes moléculaires de formation des lignes médianes, l'existence d'une signature transcriptionnelle évolutivement conservée pour le gène clé de l'acquisition de ce destin cellulaire. / Ciona intestinalis tail epidermis has 8 rows of cells defining 3 domains. One of them, the midline domain, gives rise to differentiated cells which form the larval fin and part of peripheral nervous system. Previous work has shown that BMP and FGF signalling are the inducers of ventral and dorsal midlines respectively. My work consisted in the identification of molecular events which lead epidermal cells to adopt midline fate, from induction to tail differentiation. We identified 7 transcription factors involved in this process. Identification of epistatic relationships suggest that these genes are in a hierarchical network where Msxb is a key gene. This hierarchy is validated by 1) a spatio-temporal expression atlas, 2) loss of function of Msxb, 3) cis-regulatory regions analysis for each network gene. We identified 2 types of enhancers, one capable to decouple ventral / dorsal signals used by early genes, and the other used by later genes, acting as a global response in both midlines. We showed that the early expression of Msxb in dorsal precursors is controled by a distinct enhancer, regulated by FGF9/16/20 via Otx and Nodal. This transcriptional signature is found in enhancers of co-expressed genes and in Msxb orthologue in another ascidian. Finally, we showed the most posterior part of the midlines is controlled by a distinct genetic program than the one used in dorsal and ventral midlines. This work gives insight into midlines structure, the mechanisms involved in their formation and a conserved transcriptional signature for the key gene involved in midline cell fate. Ciona intestinalis Épiderme Système nerveux périphérique Régulation transcriptionnelle Enhancer Ciona intestinalis Epidermis Peripheral nervous system Transcriptional regulation Enhancer 571.8
20	Implications des complexes Polycomb et Trithorax au cours du développement précoce chez Ciona intestinalis / Implications of Polycomb and Trithorax complexes in the early development of Ciona intestinalis Liabeuf-Le Goff, Emilie 18 December 2012 (has links) Implications des complexes Polycomb et Trithorax au cours du développement précoce chez Ciona intestinalisLes protéines des groupes Polycomb (PcG) et Trithorax (TrxG) ont été initialement découvertes chez Drosophila melanogaster. Ces deux groupes sont classiquement connus pour leurs rôles respectifs de répresseurs et d'activateurs épigénétiques qui contrôlent et maintiennent les états chromatiniens au cours du temps. Ces facteurs régulent de nombreux gènes cibles dont les gènes homéotiques. Au cours de ma thèse, j'ai étudié trois composants de ces deux groupes : Enhancer of zeste (E(z)), appartenant au complexe PRC2 du PcG et responsable du dépôt de la marque de répression génique H3K27me3, Polyhomeotic (Ph), appartenant au complexe PRC1 du PcG et dont le rôle exact reste à déterminer, et Trithorax (Trx), appartenant au complexe TAC1 du TrxG et responsable du dépôt de la marque d'activation génique H3K4me3. Jusqu'à présent, aucune étude n'a abordé la régulation épigénétique via les PcG et TrxG chez l'ascidie solitaire Ciona intestinalis. Cette espèce présente un cluster des gènes Hox désorganisé et ne possède pas la protéine Polycomb (Pc) du PRC1, responsable de la reconnaissance de la marque de répression H3K27me3 déposée par la protéine E(z).Nos travaux montrent que la protéine E(z) est fonctionnelle et conserve son activité méthyltransférase sur le résidu H3K27 chez Ciona intestinalis. Nous avons ensuite observé, par des expériences de knockdown par micro-injection de morpholinos, que les inhibitions protéiques d'E(z), Ph et Trx ont des conséquences dramatiques sur la différenciation et la mise en place des différents tissus au cours du développement larvaire, notamment sur la mise en place de la notochorde puisque celle-ci est totalement absente chez les morphants E(z) et Ph. Les défauts de phénotype du morphant E(z) sont corrélés à la perte du dépôt d'H3K27me3 et nous avons mis en évidence, lors de l'inhibition d'E(z), une dérépression des gènes tissu-spécifiques impliqués dans le développement embryonnaire précoce alors que les gènes tardivement exprimés sont réprimés. De plus, l'expression des gènes Hox n'est pas significativement modifiée au cours du développement embryonnaire lorsque la protéine E(z) est inhibée, à l'exception du gène Hox12 qui est déréprimé, comme attendu.L'ensemble de ces résultats permet d'émettre l'idée innovante selon laquelle les protéines des PcG et TrxG jouent un rôle déterminant dans la régulation de l'expression génique lors de l'embryogénèse de Ciona intestinalis tout en ayant une implication mineure dans la régulation de l'expression des gènes Hox à ce stade du développement. / Implications of Polycomb and Trithorax complexes in the early development of Ciona intestinalisPolycomb and Trithorax group (PcG and TrxG) proteins were discovered originally in Drosophila melanogaster. Both groups are classically known for their roles in the maintenance of silenced and active chromatin states over time, respectively. These factors regulate many target genes including the homeotic genes. During my PhD, I studied three components of these two groups: Enhancer of zest (E(z)), belonging to the PRC2 complex of PcG and responsible for H3K27me3 mark deposit for gene repression, Polyhomeotic (Ph), belonging to the PRC1 complex of PcG whose role remains to be determined, and Trithorax (Trx), belonging to the TAC1 complex of TrxG and responsible for H3K4me3 mark deposit for gene activation. Until now, no study addresses the epigenetic regulation mediated by PcG and TrxG in the solitary ascidian Ciona intestinalis. This specie has a disorganized Hox cluster and in which the Polycomb (Pc) protein of PRC1, responsible for the recognition of the repressive H3K27me3 mark, is absent.Our work shows that the E(z) protein is functional and retains its methyltransferase activity on H3K27 residue in Ciona intestinalis. Then, we demonstrated, by knockdown experiments with morpholino microinjection, that the inhibition of E(z), Ph and Trx has dramatic consequences on differentiation and on the establishment of different tissues during larval development, particularly on the notochord establishment since it is totally absent in E(z) and Ph morphants. E(z) morphant phenotypic defects are correlated with lack of H3K27me3 mark deposit and we highlighted that, during the E(z) inhibition, tissue-specific genes implied in early development are de-repressed while late-expressed genes are down-regulated. In addition among Hox genes, only Hox12 expression is significantly modified and found to be de-repressed in E(z) morphant context, as expected.Altogether, our results present the innovative idea that the PcG and TrxG proteins play a major role in the gene expression regulation during embryogenesis of Ciona intestinalis while having a minor involvement in the regulation of Hox genes expression at this stage of development. Ciona intestinalis Enhancer of zeste Epigénétique Développement embryonnaire Régulation génique Gènes Hox Ciona intestinalis Enhancer of zeste Epigenetic Embryonic development Gene regulation Hox genes

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