Global ETD Search

341	Estudo das vitelinas VT1 e YP170B dos nematoides rabditídeos Oscheius tipulae e Caenorhabditis elegans: aspectos estruturais e funcionais. / Structural and functional analysis of VT1 and YP170B vitellins from the Rhabditid nematodes Oscheius tipulae and Caenorhabditis elegans. Almenara, Daniela Peres 07 July 2009 (has links) A região N-terminal de OTI-VIT-1 foi expressa e os polipeptídeos recombinantes foram purificados. OTI-VIT-1 pode ser homólogo da vitelina YP170B de C. elegans. Foram identificados um intron na região 5´ e dois na região 3´ do gene Oti-vit-1. Antissoro monoespecífico para PVIT1HisC confirmou que o gene Oti-vit-1 codifica VT1. O polipeptídeo recombinante P40-H, correspondente à região N-terminal da proteína OTI-VIT-6 interage com um polipeptídeo de aproximadamente 100 kDa (P100) presente em extratos proteicos totais de O. tipulae. Estudamos também o papel da Proteína Microssômica Transportadora de Triglicerídeos (MTP) na biossíntese de Vitelogenina do nematoide C. elegans. Ensaios de RNAi em C. elegans, utilizando parte da sequência do gene da MTP (Cel-dsc-4) foram realizados nas linhagens N2 e DH1033. Microscopia de fluorescência de vermes adultos da linhagem DH1033, submetidos a RNAi, mostrou acúmulo de YP170B::GFP no interior dos enterócitos. Este acúmulo sugere a participação da MTP na secreção de VTG. Análise imunológica da vitelogenina nestes mesmos vermes não detectaram alterações no processamento de CEL-VIT-6, sugerindo que o mesmo ocorra não só no pseudoceloma, mas também no interior dos enterócitos. / The N-terminal region of OTI-VIT-1 was expressed and the recombinant polypeptides were purified. OTI-VIT-1 may be homologous to the vitellin YP170B from C. elegans. We identified an intron in the 5 \'region and two in 3\' region from Oti-vit-1. Monospecific antisera to PVIT1HisC confirmed that the gene Oti-vit-1 encodes VT1. The recombinant polypeptide P40-H, corresponding to the N-terminal region of the protein OTI-VIT-6, interacts with a polypeptide of approximately 100 kDa (P100) present in total protein extracts of O. tipulae. The role of microsomal triglyceride transfer protein (MTP) in the biosynthesis of vitellogenin was studied in the nematode C. elegans. Trials of RNAi in C. elegans, using the sequence of the MTP gene (Cel-dsc-4) were performed in the strains N2 and DH1033. Fluorescence microscopy of adult worms of strain DH1033, subjected to RNAi, showed accumulation of YP170B:: GFP within the enterocytes. This accumulation suggests the involvement of MTP in the secretion of VTG. Analysis using anti-vitellogenin immune serum did not detect changes in the processing of CEL-VIT-6, suggesting that it occurs not only in pseudocoelom but also within the enterocytes. Caenorhabditis elegans Caenorhabditis elegans Oscheius tipulae Oscheius tipulae Ligand-blotting Ligand-blotting MTP MTP Nematodes (Structure) Nematóides (Estrutura) Parasitologia Parasitology RNAi RNAi Vitellogenin Vitelogenina
342	Microsporidia infections in Caenorhabditis elegans and related nematodes / Microsporidies, Caenorhabditis elegans, et autres nématodes : biologie et caractérisation de leurs interactions Zhang, Gaotian 23 February 2017 (has links) Les microsporidies sont des pathogènes intracellulaires obligatoires apparentés aux champignons. Elles infectent de nombreux animaux, dont le nématode Caenorhabditis elegans. La première microsporidie isolée d’une souche de C. elegans sauvage a été nommée Nematocida parisii. L’interaction entre N. parisii et C. elegans est devenue un puisant modèle pour l'étude des interactions hôte-pathogène. Cependant, ce modèle a été récemment découvert et de nombreux détails sur son écologie et sa biologie restaient inconnus. Notamment, nous ignorions l’incidence et la diversité des infections microsporidiennes chez C. elegans et autres nématodes dans la nature.A partir d’une collection de nématodes, de la famille des Rhabditidae, échantillonnés dans le monde entier, j’ai recensé un panel de 47 nématodes présentant des symptômes d’infection par des microsporidies. J’ai caractérisé moléculairement la diversité de ce parasite infectant ces nématodes et déterminé que N. parisii est la microsporidie la plus souvent responsable des infections chez C. elegans dans la nature. J’ai également décrit et nommé six nouvelles espèces de Nematocida. Au cours de mes travaux, j’ai aussi défini deux nouveaux genres de microsporidies génétiquement distincts de Nematocida, appelés Enteropsectra et Pancytospora. Mes travaux ont de plus détaillé la diversité qui existe chez les microsporidies parasites de nématodes. Ces microsporidies présentent des différences en terme de taille et forme de leurs spores, de leur tropismes tissulaire et intracellulaire chez l’hôte, de leur voie de sortie des cellules hôtes mais aussi de spectre d’hôtes. Mes résultats ont démontré que, dans la nature, les infections de C. elegans et autres nématodes par les microsporidies sont répandues et diverses.De plus, j’ai estimé la variation naturelle pour la sensibilité de C. elegans à l'infection par N. ausubeli. J’ai notamment comparé 10 souches naturelles de C. elegans en utilisant des tests de consommation alimentaire. Deux souches de C. elegans, JU1249 et JU2825, présentaient des niveaux contrastés de sensibilité, ce que j’ai interprété comme étant une différence de niveau de tolérance aux infections. Ces deux souches se sont révélées être de bons candidats pour une future caractérisation des loci génétiques associés à la variation de sensibilité de C. elegans aux infections microsporidiennes. Enfin, j’ai observé un effet surprenant de l'infection de C. elegans par les microsporidies. En effet, la présence du pathogène est capable de supprimer le déclin progressif de la fécondité à haute température chez certaines lignées de C. elegans. / Microsporidia are fungi-related intracellular pathogens that infect a great variety of animals, including the nematode Caenorhabditis elegans. The first microsporidia isolated from wild C. elegans was named Nematocida parisii in 2008. C. elegans and N. parisii have been used as a powerful model for the study of host-pathogen interactions. However, it was unclear how widespread and diverse microsporidia infections are in C. elegans or other related nematodes in the wild.By sampling rhabditid nematodes worldwide, we established a collection of 47 nematodes that displayed putative microsporidia infections. We characterized molecularly these infections and determined that N. parisii (or N. ironsii) is the most common microsporidia infecting C. elegans in the wild. We further described and named six new Nematocida species. In addition, we defined two new genera of nematode-infecting microsporidia, named Enteropsectra and Pancytospora, which are genetically distinct from Nematocida. Further investigations showed that these microsporidia are diverse in terms of spore size and shape, host tissue tropism, host cell intracellular localization, cellular exit route, host specificity pattern, etc. Overall, these findings illustrate the widespread and diverse microsporidia infections in C. elegans and related nematodes in the wild.We further assayed the natural variation of C. elegans in sensitivity to N. ausubeli infection, by comparing 10 C. elegans strains using food consumption tests. Two C. elegans strains, JU1249 and JU2825, displayed the largest sensitivity differences, which were suggested to be a result of the different tolerance between the two strains. These two strains are proven to be good candidates for future studies on the genetic loci associated with C. elegans sensitivity variation to microsporidian infections. Furthermore, I observed an exciting effect of host-pathogen interaction. Microsporidia infection is able to suppress the progressive decline in fertility in some C. elegans with the mortal germline phenotype (Mrt). Microsporidies Caenorhabditis elegans Diversité Interactions hôte-Pathogène Spectre d’hôtes Variation naturelle Microsporidia Caenorhabditis elegans Diversity Host-Pathogen interaction Host specificity Natural variation 570
343	Regulation of Mitotic Spindle Assembly in Caenorhabditis elegans Embryos / Regulation der Bildung der mitotischen Spindel in Caenorhabditis elegans embryos Schlaitz, Anne-Lore 10 June 2007 (has links) (PDF) The mitotic spindle is a bipolar microtubule-based structure that mediates proper cell division by segregating the genetic material and by positioning the cytokinesis cleavage plane. Spindle assembly is a complex process, involving the modulation of microtubule dynamics, microtubule focusing at spindle poles and the formation of stable microtubule attachments to chromosomes. The cellular events leading to spindle formation are highly regulated, and mitotic kinases have been implicated in many aspects of this process. However, little is known about their counteracting phosphatases. A screen for genes required for early embryonic cell divisions in C. elegans identified rsa-1 (for regulator of spindle assembly 1), a putative Protein Phosphatase 2A (PP2A) regulatory subunit whose silencing causes defects in spindle formation. Upon rsa-1(RNAi), spindle poles collapse onto each other and microtubule amounts are strongly reduced. My thesis work demonstrates that RSA-1 indeed functions as a PP2A regulatory subunit. RSA-1 associates with the PP2A enzyme and recruits it to centrosomes. The centrosome binding of PP2A furthermore requires the new protein RSA-2 as well as the core centrosomal protein SPD-5 and is based on a hierarchical protein-protein interaction pathway. When PP2A is lacking at centrosomes after rsa-1(RNAi), the centrosomal amounts of two critical mitotic effectors, the microtubule destabilizer KLP-7 and the kinetochore microtubule stabilizer TPXL-1, are altered. KLP-7 is increased, which may account for the reduction of microtubule outgrowth from centrosomes in rsa-1(RNAi) embryos. TPXL-1 is lost from centrosomes, which may explain why spindle poles collapse in the absence of RSA-1. TPXL-1 physically associates with RSA-1 and RSA-2, suggesting that it is a direct target of PP2A. In summary, this work defines the role of a novel PP2A complex in mitotic spindle assembly and suggests a model for how different microtubule re-organization steps might be coordinated during spindle formation. mitosis spindle assembly protein phosphatase 2A centrosome microtubule Caenorhabditis elegans embryo Mitose mitotische Spindel Protein Phosphatase 2A Centrosom Mikrotubulus Caenorhabditis elegans Embryo ddc:570 rvk:WG 2100
344	The function of the germline rna helicase (GLH) genes in caenorhabditis elegans Kuznicki, Kathleen January 2000 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 2000. / Typescript. Vita. Includes bibliographical references (leaves 107-112). Also available on the Internet.
345	Caractérisation de l’ubiquitin-fold modifier (UFM1) dans un modèle C. elegans Demers-Lamarche, Julie 12 1900 (has links) L’ubiquitin-fold modifier (UFM1) fait partie de la classe 1 de la famille de protéine ubiquitin-like (Ubl). UFM1 et Ub ont très peu d’homologie de séquence, mais partagent des similarités remarquables au niveau de leur structure tertiaire. Tout comme l’Ub et la majorité des autres Ubls, UFM1 se lie de façon covalente à ses substrats par l’intermédiaire d’une cascade enzymatique. Il est de plus en plus fréquemment rapporté que les protéines Ubls sont impliquées dans des maladies humaines. Le gène Ufm1 est surexprimé chez des souris de type MCP développant une ischémie myocardique et dans les îlots de Langerhans de patients atteints du diabète de type 2. UFM1 et ses enzymes spécifiques, UBA5, UFL1 et UFC1, sont conservés chez les métazoaires et les plantes suggérant un rôle important pour les organismes multicellulaires. Le Caenorhabditis elegans est le modèle animal le plus simple utilisé en biologie. Sa morphologie, ses phénotypes visibles et ses lignées cellulaires ont été décrits de façon détaillée. De plus, son cycle de vie court permet de rapidement observer les effets de certains gènes sur la longévité. Ce modèle nous permet de facilement manipuler l’expression du gène Ufm1 et de mieux connaître ses fonctions. En diminuant l’expression du gène ufm-1 chez le C.elegans, par la technique de l’ARN interférence par alimentation, nous n’avons observé aucun problème morphologique grave. Les vers ressemblaient aux vers sauvages et possédaient un nombre de progéniture normal. Cependant, les vers sauvage exposés à l’ARNi d’ufm-1 vivent significativement moins longtemps que les contrôles et ce, de façon indépendante de la voie de signalisation de l’insuline/IGF. Chez le C. elegans la longévité et la résistance au stress cellulaire sont intimement liées. Nous n’avons remarqué aucun effet d’ufm-1 sur le stress thermal, osmotique ou oxydatif, mais il est requis pour la protection contre le stress protéotoxique. Il est également nécessaire au maintien de l’intégrité neuronale au cours du vieillissement des animaux. L’ensemble de nos données nous renseigne sur les fonctions putatives du gène Ufm1. / The ubiquitin-fold modifier (UFM1) is part of the type 1 class of the family of ubiquitin-like protein (Ubl). UFM1 and Ub have very little sequence homology but share remarkable similarities in their tertiary structure. Like Ub and most other UBLS, UFM1 binds covalently to its substrates through an enzymatic cascade. It is frequently reported that UBLs are involved in human diseases. UFM-1 is overexpressed in mice developing a myocardial ischemia and in the islets of patients suffering from type 2 diabetes. UFM1 and its specific enzymes, UBA5, UFL1, and UFC1 are conserved in metazoans and plants suggesting an important role in multicellular organisms. Caenorhabditis elegans is one of the the simplest animal models used in biology. Some features such as morphology, visible phenotypes and cell lineage have completely been described. The short lifecycle of C. elegans makes it easy to observe gene effects on longevity. This model allows us to easily manipulate the expression of the Ufm1 gene and learn more about its putative functions. To study putative functions of Ufm1, we decreased the expression of ufm-1 using RNA interference introduces through feeding. No gross morphological disturbances were observed; worms resembled wild type and had a normal brood size. However, worms exposed to ufm-1 RNAi had a significantly shorter lifespan than the controls. This effect is independent of the insulin/IGF pathway, which is a major axis of longevity genetics. In C. elegans longevity and cellular stress resistance are intimately linked. We have observed no effect of ufm-1 on thermal, osmotic or oxidative stress, but it is required for protection against proteotoxic stress. It is also necessary to maintain neuronal integrity during aging. Together, our results shed light on putative functions of Ufm1 gene. Caenorhabditis elegans Ufm1 Longévité Vieillissement ARN interférence Intégrité neuronale Caenorhabditis elegans Ufm1 Longevity Aging RNA interference Neuronal integrity
346	Stereoselective synthesis and hormonal activity of novel dafachronic acids and naturally occurring steroids isolated from corals Saini, Ratni, Boland, Sebastian, Kataeva, Olga, Schmidt, Arndt W., Kurzchalia, Teymuras V., Knölker, Hans-Joachim 07 April 2014 (has links) (PDF) A stereoselective synthesis of (25S)-Δ1-, (25S)-Δ1,4-, (25S)-Δ1,7-, (25S)-Δ8(14)-, (25S)-Δ4,6,8(14)-dafachronic acid, methyl (25S)-Δ1,4-dafachronate and (25S)-5α-hydroxy-3,6-dioxocholest-7-en-26-oic acid is described. (25S)-Δ1,4-Dafachronic acid and its methyl ester are natural products isolated from corals and have been obtained by synthesis for the first time. (25S)-5α-Hydroxy-3,6-dioxocholest-7-en-26-oic acid represents a promising synthetic precursor for cytotoxic marine steroids. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Caenorhabditis elegans Fadenwurm Kernrezeptor Lebensdauer Stereoselektive Synthese caenorhabditis elegans nuclear receptor life span stereocontrolled synthesis dauer formation daf-12 ligands identification ergosterol ddc:540 rvk:VA 1120
347	Studies of aurora and polo kinases during cell division in C. elegans Rogers, Eric Jason. January 2005 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: 108-115.
348	The study of WNT signaling effector POP-1/TCF in c. elegans early embryos Lo, Miao-Chia. January 2005 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: 144-160.
349	Evidências de redundância funcional entre as pró-hormônio convertases no processamento pós-traducional do precursor da vitelogenina VIT-6 do nematóide Caenorhabditis elegans. / Functional redundancy in the post-translational processing of the vitellogenin VIT-6 precursor by Caenorhabditis elegans proprotein convertases. Juliana Andreoni Nico 29 January 2009 (has links) Caenorhabditis elegans possui quatro genes de kpcs (kex2/subtilisin-like proprotein convertases): kpc-1, kpc-2/egl-3, kpc-3/aex-5, kpc-4/bli-4. Em C. elegans, dois dos quatro polipeptídeos de vitelogenina encontrados dentro dos ovócitos, YP115 e YP88, se originam a partir de um precursor polipeptídico (VIT-6) clivado pós-traducionalmente após o motivo RGKR. Nematóides transgênicos foram produzidos com construções repórteres transcricionais de GFP. Foi verificada expressão de kpc-1 tanto em neurônios quanto em células musculares e intestinais. Esses dados, aliados aos dados da literatura para os outros genes kpc de C. elegans, sugerem o envolvimento de KPC-1 no processamento de VIT-6, que é secretada por células intestinais. Ensaios de Western-blot compararam o processamento de VIT-6 em nematóides selvagens, mutantes e knock-down por RNAi para os diferentes genes kpc. A análise de nematóides mutantes e knock-down por RNAi combinado para os outros três genes de convertase de C. elegans confirmou a redundância da atividade dessas enzimas no processamento de VIT-6. / Four kpc genes are found in the Caenorhabditis elegans genome: (kex2/subtilisin-like proprotein convertases): kpc-1, kpc-2/egl-3, kpc-3/aex-5, kpc-4/bli-4. Two of the four vitellogenin polypeptides, YP115 and YP88, originate from a precursor, VIT-6. VIT-6 is cleaved post-translationally after the RGKR motif. Transgenic worms carrying GFP transcription reporter constructs were produced. Expression of kpc-1 has been localized to neurons as well as muscular and intestinal cells. These data, together with the ones available from the literature for the other kpc genes, suggest the involvement of KPC-1 in the processing of VIT-6, which is secreted from intestinal cells. Western-blot analysis compared the pattern of VIT-6 processing in wild-type, mutants and RNAi-treated worms for the other kpcs. Analysis of worms treated by combined RNAi confirmed the redundancy of KPCs in VIT-6 processing. Caenorhabditis elegans Pró-hormônio convertase Processamento-pós traducional Redundância funcional RNAi Vitelogênese Caenorhabditis elegans Functional redundancy Post-translational processing Pro-protein convertase RNAi Vitellogenesis
350	Étude des modifications sub-cellulaires associées au vieillissement musculaire chez Caenorhabditis elegans-Rôle du facteur de transcription UNC-120/SRF / Studies of sub-cellular modifications associated with muscle aging in Caenorhabditis elegans : role of the transcription factor UNC-120/SRF Mergoud dit Lamarche, Adeline 13 July 2016 (has links) Le vieillissement s'accompagne d'une perte progressive de la masse et de la fonction musculaire, appelée sarcopénie. Différents mécanismes ont été proposés pour expliquer la sarcopénie. Cependant, la majorité d'entre eux ont été identifiés dans le contexte d'une atrophie induite expérimentalement (par dénervation, immobilisation, jeûne...) ou via des études corrélatives chez l'homme. Ainsi nous ne connaissons pas aujourd'hui l'importance et la chronologie de ces facteurs dans le contexte du vieillissement physiologique. Caenorhabditis elegans est un organisme modèle de référence pour les études de longévité. Grâce aux outils génétiques disponibles chez le nématode C. elegans, des voies moléculaires, qui contrôlent la longévité et dont le rôle est conservé chez les mammifères, ont pu être identifiées, comme la voie du récepteur de l'insuline/IGF-1. Toutefois le vieillissement musculaire a été très peu étudié dans cet organisme.Le premier objectif de mon projet de thèse était de décrire chez C. elegans les changements subcellulaires qui sont associés la perte de mobilité avec l'âge afin d'identifier des biomarqueurs potentiels du vieillissement musculaire. Le deuxième objectif était d'utiliser ces biomarqueurs comme outil pour identifier des gènes modificateurs de la sarcopénie. Nous avons ainsi pu mettre en évidence une diminution de l'expression de gènes impliqués dans la structure et la fonction musculaire très tôt au cours de la vie adulte. Ce phénotype est suivi par une fragmentation progressive des mitochondries puis une accumulation de vésicules d'autophagie. Ces biomarqueurs ont été utilisés pour tester le rôle potentiel, dans le maintien du muscle, de facteurs impliqués dans la différenciation musculaire au cours de l'embryogenèse.L'ensemble des résultats obtenus nous permettent de proposer un modèle selon lequel le facteur de transcription unc-120, orthologue du Serum Response Factor, agirait en aval de la voie de signalisation de l'insuline/IGF-1 dans le contrôle des différents biomarqueurs du vieillissement musculaires / Aging is accompanied by a progressive loss of muscle mass and function, named sarcopenia. Different mechanisms have been proposed to explain it. Furthermore most of them have been identified in the context of an experimental induced atrophy (by denervation, immobilization, fasting...) or via correlative studies in humans. Thus today we do not know the importance and chronology of these factors in the context of physiological aging. Caenorhabditis elegans is a reference model organism for longevity studies. Thanks to genetics tools available for the nematode C. elegans, evolutionarily conserved molecular pathways, which control longevity, have been identified, such as the Insulin/IGF-1 receptor pathway. However muscle aging has been very poorly studied in this organism. The first aim of my thesis project was to describe, in C. elegans, subcellular changes that are associated with mobility loss with age in order to determine potential biomarkers of muscle aging. The second aim was to use these biomarkers as tools to identify genes able to modify sarcopenia. Specifically, we could highlight a decrease of expression of genes involved in muscle mass and function very early during adulthood. This phenotype is followed by a gradual mitochondrial fragmentation then an accumulation of autophagic vesicles.These biomarkers have been used to test the potential role in muscle maintenance, of factors involved in muscle differentiation during embryogenesis. Altogether these results suggest a model in which the transcription factor unc-120, ortholog of Serum Response Factor, would act downstream in the insulin/IGF-1 signalization pathway on the control of the different biomarkers of muscle aging Caenorhabditis elegans Vieillissement musculaire UNC-120/SRF Daf-2/IR IGFIR Caenorhabditis elegans Muscle aging UNC-120/SRF Daf-2/IR IGFIR 571.6

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