Global ETD Search

11	Évaluations physiologiques de la tricaïne méthanesulfonate pour l’anesthésie des grenouilles africaines à griffes (Xenopus laevis) Lalonde-Robert, Vanessa 04 1900 (has links) Il existe peu d’études sur les effets physiologiques et pharmacologiques du médicament anesthésiant le plus utilisé chez les anoures, la tricaïne méthanesulfonate, et son utilisation chez la grenouille Xenopus laevis. Notre premier objectif était d’évaluer l’effet de bains d’immersion de 20 minutes de 1 et 2 g/L de tricaïne méthanesulfonate sur la fonction cardiorespiratoire, l’analgésie et les réflexes ainsi que d’étudier la pharmacocinétique. Nos résultats démontrent que des bains de 1 et 2 g/L produisent une anesthésie chirurgicale de 30 et 60 minutes respectivement, sans effet significatif sur le système cardiorespiratoire. À la suite d’une immersion à 2 g/L, on note une demi-vie terminale de 3,9 heures. Cette dose ne produit aucun effet sur l’histologie des tissus 24 heures après l’immersion. Dans une deuxième expérience, nous avons évalué les effets d’une surdose de tricaïne méthanesulfonate en bain d’immersion sur les systèmes cardiorespiratoire et nerveux central grâce à l’électroencéphalographie ainsi que l’effet d’une injection de pentobarbital sodique après 2 heures d’immersion. L’EEG montre un effet dépresseur sur le SNC avec l’utilisation de la tricaïne méthanesulfonate sans voir un arrêt de signal d’EEG sur la période de 2 heures d’enregistrement. Les surdoses à 1 g/L et 3 g/L n’ont pas d’effet significatif sur le rythme cardiaque, et l’injection de pentobarbital suite au bain d’immersion de tricaïne méthanesulfonate est nécessaire pour induire l’euthanasie. Nous avons démontré que le bain de tricaïne méthanesulfonate peut produire une anesthésie de 30 à 60 minutes avec dépression du SNC sans effet cardiovasculaire chez les Xenopus laevis. / Very few studies exist on the physiological and pharmacological effects of the most commonly used anesthetic agent used in amphibians, tricaine methanesulfonate, in Xenopus laevis frogs. Our first goal was to measure the effects of 20 minutes bath immersions of 1 and 2 g/L tricaine methanesulfonate on cardiorespiratory system, analgesia and reflexes. We also studied the pharmacokinetic of tricaine methanesulfonate following an immersion in a 2 g/L bath. Our results show that both 1 and 2 g/L baths produce surgical anesthesia during 30 and 60 minutes respectively, without significant effect on the cardiorespiratory system. Following the immersion in a 2 g/L bath, the tricaine methanesulfonate has a terminal half-life of 3,9 hours and no effect on tissue histology is observed 24 hours after anesthesia. In a second experiment, we evaluated the effects of tricaine methanesulfonate overdose on cardiorespiratory system and on central nervous system using electroencephalography. Moreover, we evaluated the effect of sodium pentobarbital injection after 2 hours of immersion. A significant EEG depression of central nervous system activity occurred with the use of tricaine methanesulfonate following 2 hours of recording and the pentobarbital injection was necessary to induce euthanasia. We showed that tricaine methanesulfonate can produce safe anesthesia of 30 to 60 minutes with reduction of CNS activity and without cardiorespiratory effect in Xenopus laevis. tricaïne méthanesulfonate anesthésie euthanasie amphibien grenouille africaine à griffes pharmacocinétique électroencéphalographie tricaine methanesulfonate anesthesia euthanasia amphibian African clawed frog pharmacokinetics electroencephalogram
12	Combining paleontological and neontological data to assess the extinction risk of amphibians Tietje, Melanie 12 February 2019 (has links) Das Aussterberisiko einer Art ist nicht zufällig, sondern wird von mehreren Faktoren bestimmt, die geografische, ökologische und morphologische Merkmale umfassen. Einige dieser Merkmale sind Teil der Kriterien zur Einschätzung der Gefährdung einer Art, wie zum Beispiel in der Roten Liste der IUCN. Diese Beurteilungen sind ein wichtiges Werkzeug für den Artenschutz, da sie eine Verteilung der Maßnahmen auf die am stärksten gefährdeten Arten ermöglichen. Dies ist besonders wichtig für Amphibien, die Wirbeltiergruppe mit dem derzeit höchsten Anteil an bedrohten Arten. Bei einem großen Teil der Arten fehlt jedoch eine Einschätzung des Aussterberisikos. Weiter mangelt es auch an einer endgültigen Verifizierung des Einflusses der genutzten Merkmale auf das Aussterberisiko, da Aussterbeereignisse auf neontologischen Zeitskalen schwer zu erkennen sind. Der Fossilbericht stellt ein enormes Archiv an bereits geschehenen Aussterbeereignissen dar und bietet die Möglichkeit den Einfluss bestimmter Merkmale auf die Gefährdung zu testen. In der vorliegenden Arbeit untersuche ich Merkmale von Amphibienarten, die zum Aussterberisiko dieser zunehmend gefährdeten Gruppe beitragen und bestätige die Bedeutung der geographischen Reichweite für das Aussterberisiko. Die in dem sich aktuell entwickelnden Gebiet Conservation Paleobiology angesiedelte Arbeit konzentriert sich auf die Verbindung von paläontologischen und neontologischen Daten, und wie diese Kombination dazu beitragen kann das Wissen über Aussterberisiko-beeinflussende Faktoren zu erweitern. Dies wird durch die Analyse verschiedener im Fossilbericht überlieferter Artmerkmale und der Kombination der Erkenntnisse mit Ergebnissen der Roten Liste und Klimadaten erreicht. In meiner Arbeit zeige ich mögliche Anwendungen des Fossilberichts auf aktuellen Themen des Artenschutzes und wie eine Kombination beider Bereiche zum tieferen Verständnis von Gefährdungsfaktoren beitragen kann. / The extinction risk of a species is not random, but rather shaped by several factors comprising geographical, environmental and morphological traits. Some of these traits have been incorporated in assessment procedures for the classification of extant species' extinction risk, such as the International Union for Conservation of Nature (IUCN) Red List. These assessments are an important tool for conservation purposes, as they direct the available resources to species that are most reliant on support. This is especially important for amphibians, which are the the most endangered terrestrial vertebrate taxon today. However, a large number of species lack an assessment for extinction risk. Also, additional verification of the general influence of incorporated traits on extinction risk is needed, as real extinction events are difficult to detect on neontological time scales. The fossil record offers the opportunity to test the influence of certain traits on extinction risk as it provides an enormous archive of extinction events that already happened. In this thesis, I examine traits in amphibian species that contribute to the extinction risk of this increasingly endangered group and provide support for the importance of geographic range size on the extinction risk of species. Placed in the developing field of Conservation Paleobiology, the study concentrates on the connection between paleontological and neontological data and how this unique combination can add to the knowledge about traits that shaped the extinction risk of amphibian species. This is achieved by investigating species traits, conserved in the amphibian fossil record, and combining these findings with results from the IUCN Red List and climate data. The present dissertation shows possible applications of the fossil record to current questions in conservation biology and shows how a combination of both fields contributes to the understanding of factors that influence the extinction risk of species. Amphibien Artenschutz Fossilbericht Vorhersage Aussterberisiko amphibians conservation fossil record prediction extinction risk 560 Paläontologie, Paläozoologie 570 Biowissenschaften; Biologie AR 13580 WH 5600 WH 9430 ddc:560 ddc:570
13	Étude de marqueurs de différenciation testiculaire Sox9 et Amh lors d'un développement normal, d'une inversion sexuelle et d'un développement en absence de cellules germinales chez l'amphibien urodèle Pleurodeles waltl. Intérêt pour la physiologie comparée de la reproduction des vertébrés / Study of testis differentiation markers Sox9 and Amh during normal development, sex reversal, and development in the absence of germ cells in the newt Pleurodeles waltl. Interest in comparative physiology of reproduction Al-Asaad, Imane 13 November 2013 (has links) Dans le contexte de la physiologie comparée de la reproduction, les amphibiens sont peu étudiés. Le travail réalisé durant cette thèse visait à analyser des marqueurs de différenciation testiculaire chez l'urodèle Pleurodeles waltl, dont le déterminisme génétique du sexe (ZZ/ZW) peut être influencé par la température. Nos études ont d'abord porté sur le gène sox9 marqueur de la différenciation testiculaire chez les vertébrés supérieurs. Le gène cloné chez le pleurodèle montre une bonne conservation par rapport aux autres vertébrés. Son expression plus élevée dans la gonade mâle n'apparaît que tardivement suggérant qu'il n'est probablement pas impliqué dans les stades précoces de la différenciation testiculaire. En outre, son expression dans le mésonéphros rend difficile son utilisation comme marqueur de différenciation testiculaire. Nous avons ensuite étudié l'Amh, hormone testiculaire impliquée dans la régression des canaux de Müller chez de nombreux vertébrés. Son expression spécifique de la gonade, précocement plus élevée chez les larves ZZ que les ZW en font un excellent marqueur de la différenciation testiculaire. Le fait que les pleurodèles mâles voient les canaux de Müller persister malgré la présence d'Amh suggère que la fonction primaire de cette hormone était en relation avec la différenciation gonadique et que la fonction de régression des canaux de Müller n'est apparue que secondairement au cours de l'évolution. Ces marqueurs ont été mis à profit pour caractériser le phénotype gonadique lors d'inversions sexuelles ou lors de développements en absence de cellules germinales. Ils ont permis de montrer que les cellules germinales ne semblent pas jouer de rôle dans la différenciation gonadique du pleurodèle / In the context of comparative physiology of reproduction, amphibians are poorly studied. This work was dedicated to the analysis of testis differentiation markers in the newt Pleurodeles waltl, which shows a ZZ/ZW genetic mode of sex determination that can be affected by temperature. First, we studied sox9, a testis differentiation marker well characterized in many higher vertebrates. The gene cloned in Pleurodeles shows a good level of identity with other vertebrates. The testis-enriched expression appears late during the testis differentiation process indicating that it is probably not involved in the early steps of testis differentiation. Its use as a marker of testicular differentiation proved difficult since it is expressed not only in the gonads but also in the mesonephros. Then, we studied amh, a testis hormone responsible for müllerian duct regression in many vertebrates. Its early expression in the gonad, significantly higher in male than in female larvae makes it an excellent marker for testis differentiation. Since in Pleurodeles waltl, Müllerian ducts persist in males, it suggests that during the course of evolution, the function of Amh on the regression of Müllerian ducts appeared secondarily after its role in gonadal differentiation. These markers have been used to characterize the gonadal phenotype during sex reversal, or in gonads developed in the absence of germ cells. They showed that these cells do not seem to play a role in gonadal differentiation of Pleurodeles waltl Amphibien Pleurodeles waltl Différenciation gonadique Cellules germinales Sox9 AMH Aromatase Busulfan Amphibian Pleurodeles waltl Gonadal differentiation Germ cells Sox9 AMH Aromatase Busulfan 571.816 571.882
14	Endokrin wirksame Stoffe (endocrine disruptors) und deren Wirkungen auf die Sexualdifferenzierung bei Amphib Xenopus laevis Bögi, Christian 26 February 2003 (has links) Die vorliegende Arbeit befasst sich mit der Erweiterung des etablierten Stu-dienmodells Xenopus laevis zur Untersuchung der Wirkung von endocrine disruptors auf die Reproduktionsbiologie von Amphibien. Um einen Einblick in die grundlegenden Mechanismen der sexuellen Differenzierung von Amphibien zu gewinnen, wurden die Konzentrationen bestimmt, mit denen androgene und estrogene Sexualsteroide während der larvalen Entwicklung in verschiedenen Stadien von Xenopus vorliegen. Parallel wurde das Auftreten der korrespondierenden Rezeptoren im Verlauf der Entwicklung untersucht, über welche die hormonelle Wirkung vermittelt wird. Auf der Basis der gewonnenen Erkenntnisse konnte eine neue Hypothese zur sexuellen Differenzierung von Amphibien entwickelt und vorgestellt werden. Sie stellt das Enzym 5alpha-Reduktase, das die Umwandlung von Testosteron in das potentere und nicht weiter aromatisierbare Androgen Dihydrotestosteron (DHT) bewerkstelligt, in den Mittelpunkt des Prozesses der Geschlechtsdifferenzierung. Abhängig von der genetisch bedingten Expression dieses Enzyms kommt es zu einem höheren oder niedrigeren Auftreten des DHT und damit zu Unterschieden im Verhältnis von DHT zu Estradiol (E2). Der Charakter dieses Verhältnisses scheint der entscheidende Auslöser für die Entwicklung eines weiblichen oder männlichen Phänotyps zu sein. In einem zweiten, anwendungsorientierten Teil wurde untersucht, in wie weit die bislang auf Laboruntersuchungen beschränkte Arbeit mit X. laevis auf Feldstudien erweiterbar ist und ob sich auf diese Weise gewonnene Daten auf die Situation heimischer Amphibien übertragen lassen. Parallele Expositionen des Krallenfrosches einerseits und des Grasfrosches (Rana temporaria) andererseits gegenüber realen Medien unter Freilandbedingungen bestätigten die hervorragende Eignung des Studienmodells X.laevis zur Beurteilung endokriner Belastungssituationen. Darüber hinaus konnte gezeigt werden, dass sich durch die Verwendung von Festphasenextrakten die endokrinen Wirkungen komplexer Matrizes unter standardisierten Laborbedingungen charakterisieren lassen. Rezeptorbindungsstudien sowie Untersuchungen zur Genexpression spezifischer Marker, histologische Betrachtungen von Gonadengewebe und die Bestimmung von Geschlechterverhältnissen ermöglichten Aussagen auf vielfältigen Nachweisebenen. Auf diese Weise konnte das Potenzial, mit dem Proben jeder Art, sowohl durch kurz- als auch durch langfristige Exposition, adverse Effekte auf das amphibische Hormonsystem hervorrufen können, umfassend und differenziert analysiert werden. / The presented work aims to contribute to the various opportunities of studying the effects of endocrine disruption on sexual differentiation in amphibians provided by the well established model Xenopus laevis. In order to gain insight into the basic mechanisms underlying the sexual differentiation in amphibians, the concentrations of androgen and estrogen sexual steroids during several stages of the larval development of Xenopus were determined. In parallel, the ocurrence of the corresponding receptors, which mediate the effects of the respective hormones, was observed. Based on the results of the studies described, a new hypothesis regarding sexual differentiation in amphibians is presented, which assignes the enzyme 5alpha-reductase as the central element of sexual development. This enzyme converts the androgen testosterone into dihydrotestosterone, which can not be aromatized into estradiol. Depending on the genetic sex of the indivual, genexpression of 5a-reductase may differ and therefore lead to a characteristic ratio of androgens and estrogens. We suggest, that this ratio might be the essential trigger for amphibians to develop into a male or a female. A second part aimed to enlarge the Xenopus model to the use in field studies and to proof the transferability of such data to the situation of endemic amphibians. Exposure in parallel of Xenopus on one hand and the green frog Rana temporaria on the other to the effluent of a bavarian wastewater treatment plant revealed the exceeding suitability of the model to asess the endocrine charge of the environment. Furthermore, the use of solid phase extracts derived from natural samples allowed the characterization of the respective endocrine potential under standardized laboratory conditions. Rezeptor binding studies, detection of genexpression of specific biomarkers, histological examination of gonadal tissue and the determination of sex ratios provided the evaluation of effects on several levels of investigation. By this means the Xenopus model offers the opportunity to assess the ability of any kind of sample to cause endocrine impacts on amphibians after short time as well as after long time exposure in a broad and at the same time differentiated way. Amphibien Xenopus laevis endokrine Disruption Sexualdifferenzierung Umwelt Amphibians Xenopus laevis endocrine disruption sexual differentiation environment 580 Pflanzen (Botanik) 32 Biologie WW 6428 ddc:580
15	Studying the Molecular Mechanisms for Generating Progenitor Cells during Tail Regeneration in Ambystoma mexicanum / Studien der molekularen Mechanismen zur Herstellung von Vorläuferzellen während der Schwanzregeneration in Ambystoma mexicanum Schnapp, Esther 10 May 2005 (has links) (PDF) The present thesis is a contribution to unravel the molecular mechanisms that underlie urodele regeneration. Urodele amphibians (newts and salamanders) are among the few vertebrates with the remarkable ability to regenerate lost body appendages, like the limbs and the tail. Urodele tail and limb regeneration occurs via blastemal epimorphic regeneration. A blastema is a mound of progenitor cells that accumulates at the amputation plane and eventually gives rise to the missing structures. It is known today that dedifferentiating muscle fibers at the amputation plane contribute to the blastema cell pool, but how this process occurs on the cellular and molecular level is hardly understood, which is in part due to the lack of molecular methods to test gene function in urodeles. Furthermore, little is known about how coordinated growth and patterning occurs during urodele regeneration, and if the patterning mechanisms in regeneration are related to the ones in development. The goal of this study was to better understand these processes on the molecular level. To address these questions, I first established several methods in our model systems, which are the mexican salamander Ambystoma mexicanum (axolotl) and a cell line derived from the newt Notophthalmus viridescens. In order to monitor gene expression on a cellular level during regeneration, I worked out a good in situ hybridization protocol on axolotl tissue cryosections. To be able to test gene function, I established electroporation conditions to both overexpress genes in the cultured newt cells and to deliver morpholinos into axolotl cells in vivo and newt cells in culture. I demonstrate here that morpholinos are an effective tool to downregulate protein expression in urodele cells in vivo and in culture. Testing the role of two candidate genes in muscle fiber dedifferentiation, the homeobox containing transcription factor Msx1 and Rad, a GTP-binding protein of a new Ras-related protein family, revealed that neither seems to play a major role in muscle dedifferentiation, both in culture and in vivo. In addition to testing gene function I have examined the muscle dedifferentiation process in more detail. I show here that dedifferentiating muscle fiber nuclei undergo morphological changes that are likely due to chromatin remodeling events. I also demonstrate that the axolotl spinal cord expresses embryonic dorsoventral (d/v) patterning markers of the neural tube. The transcription factors Msx1, Pax7 and Pax6 are expressed in their respective d/v domains in both the differentiated and the regenerating axolotl spinal cord. Furthermore, the secreted signaling molecule sonic hedgehog (Shh) is expressed in the floor plate in both the differentiated and the regenerating cord. Using a chemical inhibitor (cyclopamine) and an activator of the hedgehog pathway, I discovered that hedgehog signaling is required for overall tail regeneration. Blocking hedgehog signaling does not only result in d/v patterning defects of the regenerating spinal cord, but it also strongly reduces blastema cell proliferation. In addition, I identified cartilage and putative muscle progenitor cells in the blastema, marked by the expression of the transcription factors Sox9 and Pax7, respectively. Both progenitor populations are reduced in the blastema in the absence of hedgehog signaling. The continuous expression of marker genes for embryonic progenitor cell domains in the mature axolotl may be related to their ability to regenerate. Amphibien Axolotl Regeneration Blastema Sonic Hedgehog Dedifferenzierung amphibian axolotl regeneration blastema sonic hedgehog muscle dedifferentiation ddc:570 rvk:WG 3700 Axolotl Blastem Dedifferenzierung Hedgehog Regeneration
16	Modification du comportement exploratoire et des capacités de navigation du crapaud commun en paysage fragmenté / Modification of the common toad (Bufo bufo) exploratory behaviour and navigation capacity in response to landscape fragmentation Merle, Alice 11 December 2015 (has links) En augmentant la distribution des ressources dans l'espace, la fragmentation du paysage contraint le mouvement des organismes. Deux types de stratégies adaptatives antagonistes ont été mises en évidence en réponse à cette pression : une diminution ou une augmentation de la propension et de la capacité des organismes à se déplacer. La majorité de la littérature traite de la diminution des mouvements en réponse à la fragmentation du paysage. En étudiant un organisme contraint de traverser la matrice pour achever son cycle de vie (i.e. Bufo bufo), je me suis intéressée à la stratégie d'augmentation et d'optimisation des mouvements en réponse à la fragmentation. Peu d'études permettent de conclure sur l'existence de plasticité phénotypique, d'effets maternels ou d'évolution des traits liés au mouvement en réponse à la fragmentation. J'ai ainsi inclus dans ma démarche expérimentale des élevages en conditions standardisées afin d'étudier l'évolution des caractéristiques du mouvement en réponse à la fragmentation. Plus précisément, j'ai étudié l'évolution des capacités de navigation en m'intéressant à la vitesse dévolution, à la base magnétique et à l'influence de l'orientation vectorielle sur la dispersion. Je me suis également intéressée à l'évolution du comportement exploratoire en réponse à la fragmentation / Landscape fragmentation increases resource distribution and constrains animal movements. Two kinds of adaptive strategy have been revealed in response to this selective pressure: an increase or a decrease of animal capacity and propensity to move. I studied the resistance strategy (i.e. increase of movements) which is poorly documented in the literature. To do so I focused on an organism facing the need to cross the matrix to achieve its life cycle (Bufo bufo). Only a few studies enable to disentangle phenotypic plasticity, maternal eﬀect and evolution of movement characteristics. I used common garden rearing and cross-breeding experiments in order to focus on the evolutionary dimension of movement characteristics changes induced by landscape fragmentation. More precisely, I studied the evolution of navigation capacities by focusing on vector orientation, its evolutionary rate, its genetic basis, its magnetic basis and its inﬂuence on dispersal. I also studied the evolution of the exploratory behaviour in response to landscape fragmentation and searched for convergent evolution of this behaviour Mouvement animal Sélection locale Évolution rapide Évolution convergente Personnalité Comportement Champ magnétique Amphibien Animal movement Local adaptation Rapid evolution Convergent evolution Personality Behaviour Magnetic field Amphibian 577
17	Studying the Molecular Mechanisms for Generating Progenitor Cells during Tail Regeneration in Ambystoma mexicanum Schnapp, Esther 09 June 2005 (has links) The present thesis is a contribution to unravel the molecular mechanisms that underlie urodele regeneration. Urodele amphibians (newts and salamanders) are among the few vertebrates with the remarkable ability to regenerate lost body appendages, like the limbs and the tail. Urodele tail and limb regeneration occurs via blastemal epimorphic regeneration. A blastema is a mound of progenitor cells that accumulates at the amputation plane and eventually gives rise to the missing structures. It is known today that dedifferentiating muscle fibers at the amputation plane contribute to the blastema cell pool, but how this process occurs on the cellular and molecular level is hardly understood, which is in part due to the lack of molecular methods to test gene function in urodeles. Furthermore, little is known about how coordinated growth and patterning occurs during urodele regeneration, and if the patterning mechanisms in regeneration are related to the ones in development. The goal of this study was to better understand these processes on the molecular level. To address these questions, I first established several methods in our model systems, which are the mexican salamander Ambystoma mexicanum (axolotl) and a cell line derived from the newt Notophthalmus viridescens. In order to monitor gene expression on a cellular level during regeneration, I worked out a good in situ hybridization protocol on axolotl tissue cryosections. To be able to test gene function, I established electroporation conditions to both overexpress genes in the cultured newt cells and to deliver morpholinos into axolotl cells in vivo and newt cells in culture. I demonstrate here that morpholinos are an effective tool to downregulate protein expression in urodele cells in vivo and in culture. Testing the role of two candidate genes in muscle fiber dedifferentiation, the homeobox containing transcription factor Msx1 and Rad, a GTP-binding protein of a new Ras-related protein family, revealed that neither seems to play a major role in muscle dedifferentiation, both in culture and in vivo. In addition to testing gene function I have examined the muscle dedifferentiation process in more detail. I show here that dedifferentiating muscle fiber nuclei undergo morphological changes that are likely due to chromatin remodeling events. I also demonstrate that the axolotl spinal cord expresses embryonic dorsoventral (d/v) patterning markers of the neural tube. The transcription factors Msx1, Pax7 and Pax6 are expressed in their respective d/v domains in both the differentiated and the regenerating axolotl spinal cord. Furthermore, the secreted signaling molecule sonic hedgehog (Shh) is expressed in the floor plate in both the differentiated and the regenerating cord. Using a chemical inhibitor (cyclopamine) and an activator of the hedgehog pathway, I discovered that hedgehog signaling is required for overall tail regeneration. Blocking hedgehog signaling does not only result in d/v patterning defects of the regenerating spinal cord, but it also strongly reduces blastema cell proliferation. In addition, I identified cartilage and putative muscle progenitor cells in the blastema, marked by the expression of the transcription factors Sox9 and Pax7, respectively. Both progenitor populations are reduced in the blastema in the absence of hedgehog signaling. The continuous expression of marker genes for embryonic progenitor cell domains in the mature axolotl may be related to their ability to regenerate. info:eu-repo/classification/ddc/570 ddc:570
18	Bmp proteins in urodele myotube cell cycle re-entry and in regeneration Weißert, Philipp 25 September 2008 (has links) Urodele amphibians have the remarkable ability to re-grow lost body parts. This regenerative response after injury in urodeles involves dedifferentiation of fully differentiated cells into proliferative cells. One well-studied example of this is the dedifferentiation of multinucleated muscle cells into mononucleate cells resembling their precursors, the myoblasts. To form these mononucleate cells the differentiated myotubes in vivo must re-enter and complete the cell cycle; they again proliferate and produce progeny. A key question is what factors induce the myotubes to re-enter the cell cycle and proliferate. Early events of cell cycle re-entry can be studied in the A1 cell line, a myogenic cell line isolated from the Notophthalmus viridescens hindlimb, which traverses cell cycle until G2 in response to serum. In particular, it was found that thrombin cleavage induces a factor in serum of all animals tested so far to promote S phase re-entry in A1 myotubes. We have used this S phase re-entry of the A1 cell line to purify the serum activity and developed a 5-step purification protocol that enriches the activity almost 2 000 fold over the starting material, or 40 000 fold over serum. To conveniently produce and test potential candidates for their ability to induce S phase re-entry in A1 myotubes, we also developed an overexpression- and purification system for emerging candidates. Candidates were then tested for this activity with or without prior incubation with thrombin. We identified Bmp proteins as the first pure molecules that were found in fractions across the purification of the activity and that could also induce cell cycle re-entry in a dose-dependent manner when recombinantly added to the A1 myotubes. Furthermore, this response could be blocked in a dose-dependent manner by the known bmp-inhibitor noggin. Finally, we showed that inhibition of Bmp signaling in vivo causes defects in axolotl tail regeneration. info:eu-repo/classification/ddc/570 ddc:570
19	Die Akustik der Anzeigerufe der Frösche - Einflüsse ihrer Umwelt und Biologie im Kontrast zur ihrer stammesgeschichtlichen Verwandtschaft Emmrich, Mike 30 July 2020 (has links) In ihrer stammesgeschichtlichen Entwicklung haben, neben Säugetieren, Vögeln und Insekten, auch Froschlurche ein umfangreiches Repertoire an akustischen Signalen zur Identifizierung arteigener Individuen und anlocken potenzieller Paarungspartner entwickelt. Diese sogenannten Anzeigerufe sind dabei für jede Art einzigartig. Beobachtungen zeigen aber, dass es neben dieser Artspezifität, auch Ähnlichkeiten in den Anzeigerufen zwischen nicht näher verwandten Arten existieren. Es stellt sich daher die Frage woher diese Ähnlichkeiten stammen. Stellen diese Ähnlichkeiten eine Anpassung an die Bedingungen der Lebensräume dar (konvergente Evolution) oder sind sie ein Ergebnis der stammesgeschichtlichen Entwicklung der Arten (divergente Evolution). Zur Klärung dieser Frage habe ich Anzeigerufe von ca. 1500 Arten aus den unterschiedlichsten Lebensräumen unseres Planten gesammelt und ausgewertet. Eine Korrelation der gemessenen akustischen Eigenschaften (z. B. dominante Frequenz) mit der Phylogenie der Amphibien sollte dabei klären, inwieweit die Phylogenie mit diesen akustischen Eigenschaften verknüpft ist. Vergleiche zwischen verschiedenen Kategorien aus Morphologie, Verhalten und Lebensraum in Bezug auf die akustischen Eigenschaften wiederum sollten mögliche Anpassungen der akustischen Eigenschaften herausstellen. Es stellte sich am Ende heraus, dass einige akustische Eigenschaften (z. B. dominante Frequenz) sowohl ein Ergebnis einer divergenten Evolution sind, als auch einer konvergenten Evolution. Zusätzlich war es mir möglich die Anzeigerufe in separate Gilden einzuteilen, die ähnliche strukturellen Eigenschaften aufweisen. Gilden in die Arten unabhängig von ihren verwandtschaftlichen Beziehungen eingeordnet werden können. Ein Werkzeug was Vergleiche zwischen Arten anhand ihrer Akustik vereinfacht und die Möglichkeit gibt zu verstehen wie Arten die Bedingungen ihrer Lebensräume auf ähnliche akustische Weise nutzen. / Beside mammals, birds and insects also anurans developed at their evolutionary history a wide repertoire of acoustic signals to identify conspecific individuals and to attract possible mating partners. These so-called advertisement calls are unique to every single species. However, beside this species-specific uniqueness we can also observe astonishing similarities among advertisement calls of not close related species. Therefore, there is the question of where these similarities came from. Are these similarities adaptations to conditions to similar biology’s and environments and so a result of a convergent evolution or these similarities arose by the anuran phylogeny and represent a divergent evolution? To answer these questions I collected and measured advertisement calls of ca. 1500 anuran species around the globe of different living habitats. A correlation between phylogeny and acoustic properties (e.g. dominant frequency) could show the influence of the phylogeny at the evolved acoustic traits. Comparisons among different categories of morphology, behaviour and habitat concerning the acoustic traits could show possible adaptations. The result of my research showed that some structural and spectral properties are a consequence of the phylogenetic history as well as an adaptation to conditions of biology and environment. Both, the divergent and the convergent evolution place a role in these cases. Additional I managed to introduce a system to order anuran advertisement calls into distinct guilds. These guilds show how different species uses their acoustic properties in a similar matter. An additional tool to make comparisons among species easier and to understand how anuran uses environments in a similar acoustic way. Amphibien Bioakustik Evolution Gilden Adaptation Amphibians Bioacoustics Evolution Guilds Adaptation WT 4528 WT 3728 WT 6028 WH 5000 ddc:597
20	Efficacité et toxicité de l'eugénol administré à des doses anesthésiantes chez des grenouilles Xenopus laevis. Goulet, Félix 08 1900 (has links) L’eugénol permet d’induire une anesthésie chirurgicale chez la grenouille africaine à griffes (Xenopus laevis) sans causer de lésions chez des grosses grenouilles (90-140g). Le premier objectif de la présente étude était de déterminer la durée de l’anesthésie et d’évaluer la dépression du système nerveux central ainsi que les changements de saturation en oxygène et de fréquence cardiaque chez des petites (7.5 ± 2.1 g) et moyennes (29.2 ± 7.4 g) grenouilles Xenopus laevis en fonction du temps d’exposition à un bain d’eugénol de 350 µL/L. Suite à une immersion de 5 ou 10 minutes, la réponse au test à l’acide acétique, au réflexe de retrait et au réflexe de retournement était absente pendant 1 heure (petites grenouilles) et 0,5 heure (moyennes) et l’anesthésie chirurgicale durait au maximum 15 et 30 minutes chez les petites et moyennes grenouilles respectivement. La saturation en oxygène n’était pas affectée de façon significative, mais la fréquence cardiaque était diminuée jusqu’à 1 heure post-immersion dans les deux groupes. Le deuxième objectif était de déterminer la toxicité de l’eugénol chez des grenouilles de taille moyenne après une ou trois administrations à une dose anesthésique, avec ou sans période de récupération d’une semaine. Histologiquement, il y avait de l’apoptose tubulaire rénale et des membranes hyalines pulmonaires après une administration, et de la nécrose hépatique et des hémorragies dans les tissus adipeux après trois administrations. Ces résultats suggèrent que le poids corporel est un paramètre important à considérer lors de l’anesthésie de grenouilles Xenopus laevis par immersion dans l’eugénol. / Eugenol has been shown to induce surgical anesthesia in African clawed frogs (Xenopus laevis) without causing lesions after a single administration in large frogs (90-140g). The first objective of this study was to determine the duration of anesthesia in small (7.5 ± 2.1 g) and medium (29.2 ± 7.4 g) Xenopus laevis frogs and evaluate CNS depression and changes in oxygen saturation and heart rate relative to exposure time in a eugenol bath (350 µL/L). After immersion for 5 or 10 minutes, no responses to the acetic acid test (AAT), withdrawal reflex, and righting reflex were seen for 1 h (small frogs) or 0.5 h (medium frogs), and small and medium frogs were under surgical anesthesia for a maximum of 15 and 30 minutes respectively. Oxygen saturation was not significantly affected by anesthesia, but heart rate was depressed for as long as 1 hour post-exposure in both groups of frogs. The second objective was to determine the toxicity of eugenol in medium frogs after one or three administrations at anesthetic doses, with or without a 1 week recovery period. Histopathology revealed renal tubular apoptosis and pulmonary hyaline membranes after 1 administration, as well as hepatic necrosis and adipose tissue hemorrhages after 3 administrations. These results suggest that body weight is an important parameter to consider when using a eugenol bath for anesthesia of Xenopus laevis frogs. Eugénol Huile de clou de girofle Xenopus laevis Grenouille africaine à griffes Amphibien Anesthésie Poids corporel Toxicité Eugenol Clove oil Xenopus laevis African clawed frog Amphibian Anesthesia Body weight Toxicity

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