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  • 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

Réseaux de régulation génétique en aval des MAPKs orchestrant l’embryogénèse et la régénération chez l’anémone de mer Nematostella vectensis / Gene regulatory network downstream of MAPKs orchestrating embryogenesis and regeneration of the sea anemone Nematostella vectensis

Johnston, Hereroa 21 November 2018 (has links)
La régénération est un mode de développement, qui suite à un stresse physique permet de reformer à l’identique des structures biologiques initialement développer au cours de l’embryogénèse. De plus ce phénomène, plus ou moins important en fonction des organismes, est néanmoins répandu chez les métazoaires, suggérant ainsi une origine monophylogénique. D’où l’hypothèse d’un lien étroit entre la régénération et l’embryogénèse. En me basant sur cette hypothèse j’ai employé comme modèle pendant ma thèse, l’anémone de mer Nematostella vectensis. Ce modèle cnidaire offre effectivement l’opportunité unique de comparer la régénération d’un corps entier, dite extrême, à l’embryogénèse et ainsi étudier leurs liens au niveau moléculaire. Initialement établie entant que modèle d’embryologie permettant d’étudier l’évolution des réseaux de régulation génétique (RRG) orchestrant les moments clé de l’embryogénèse et s’imposer en tant que modèle d’étude de la régénération extrême. Tout d’abord, au cours de ma thèse j’ai participé à caractérisation tissulaire et cellulaire de la régénération de ce model afin d’en établir un répertoire de référence des étapes clés. En employant ce répertoire et le criblage de 80 d’inhibiteur de kinase, j’ai pu identifier plusieurs voies de signalisation régissant différente étape de la régénération, impliquant les MAPKs, JNK et ERK ainsi que plusieurs récepteurs de facteurs de croissances. Notamment ERK a également été décrit dans le processus de gastrulation chez Nematostella, dont j’ai contribué à l’établissement du RRG associé. C’est donc en me basant sur ce RRG et une base de donnée transcriptomic complète de la régénération de ce modèle, que j’ai pu établir le RRG en aval de ERK associé à la régénération. Par cette approche j’ai pu démontrer la relation au niveau moléculaire entre ces processus développementaux et surtout identifier des aspects spécifiques à la régénération. / Regeneration is a developmental process, which allow to regrow missing structures initially develop during embryogenesis, in response to an injury. Although, this ability to regenerate can be more or less dramatic depending on the organism, it is widely spread among metazoan. As such, suggesting a monophyletic origin and a tight link with embryogenesis has also been hypothesized. Based on this hypothesis, I used during my thesis the sea anemone Nematostella vectensis, a cnidarian model offers the unique opportunity to compare, whole body regeneration and embryogenesis to investigate their molecular links. In fact, Nematostella was established as an embryonic model to investigate evolution of gene regulatory network (GRN) underlying key stages e.g. gastrulation, but recently it has been a rising model to study whole body regeneration. I started to my thesis by carefully characterizing hallmarks of Nematostella regeneration starting from tissular to molecular level, establishing a comprehensive regeneration time line. By taking advantage of this tool, in association to the screening of 80 kinases inhibitors, I have identify several signaling pathways regulating various steps of regeneration in Nematostella, including the MAPK ERK, JNK and growth factor receptors. In parallel I participated to the study of ERK role during Nematostella gastrulation and the underpinning (GRN). Which offered a solid groundwork for the comparison with regeneration at the GRN level. Combining a candidate approach based on the embryonic GRN and a global transcriptomic analysis of regeneration, I have been able to bring evidence on the relationship between embryogenesis and regeneration and additionally to identify regeneration specific aspects.
2

Development and Application of Aquatic Toxicology Studies for the Assessment of Impacts Due to Chemical Stressors Using Non-Standard Indigenous Organisms

Smith, Abraham Jeffrey 03 April 2018 (has links)
Research in the multidisciplinary science of ecotoxicology is crucial to assess injuries to ecosystem resources from chemical spills or other stressors used to support environmental decision-making. Established guidelines recommend the use of non-standard native species in toxicity investigations. This work focused on the use of native species for aquatic toxicity assessment to make more relevant conclusions on the potential for adverse biological effects to occur as a result to single chemical exposures or exposures to a complex mixture like oil. We apply these studies to investigate petroleum product impacts from the Deepwater Horizon incident and concerns for metal toxicity in estuarine environments using a new model organism. Data generated from comprehensive toxicity testing programs were used in the first probabilistic risk assessment of Deepwater Horizon oil toxicity highlighting a lack of appropriate data and representative phyla. Novel toxicity study methods and a stress-response index were developed and demonstrated sensitivity and success in using the starlet anemone in ecotoxicology studies. Swim performance was used as new method to investigate sublethal indicators of stress resulting in varied responses from sheepshead minnows and Florida pompano. These studies further our ability for better laboratory-to-field extrapolation and for decision-making. The use of native species and complex mixtures like oil presented novel challenges in conducting aquatic toxicity studies. Special emphasis is placed on the necessity to understand the appropriate laboratory conditions for native species not typically held in the laboratory and maintaining study parameters to obtain quality data for more accurate interpretation and replication.

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