Global ETD Search

121	Xenopus laevis glucose-regulated protein78 (GRP78) /bip regulates pronephros formation through retinoic acid signaling. January 2014 (has links) 糖調節蛋白78 (Glucose-regulated protein 78),也稱之Bip,是70kDa熱休克蛋白家族成员之一。已有的研究表明，Bip 是一個具有多功能的蛋白，參與眾多的生物調控過程，包括蛋白折疊，調節鈣平衡，以及作為內質網緊張（ER stress) 的感應器。有研究表明，Bip可以在細胞膜上定位，作為Nodal信號通路的一個輔助受體發揮作用。大量的研究表明，Bip在疾病和代謝方面也發揮重要作用。它參與胰島素的生物合成，並可以提高長期高血糖下β細胞的功能。同時具有抗細胞凋亡的作用。然而Bip在胚胎髮育中的生物功能卻知之甚少。 / 高等脊椎動物腎臟發育中經歷形成3種腎臟形式：前腎，中腎和後腎。腎單位是這3種形式的基本結構和功能單位。在兩棲類，前腎在胚胎時期發揮作用，在胚胎的兩側各只有一個腎單位。這使得爪蟾成為前腎研究的一個非常好的模型。 / 在此項研究中，我們採用非洲爪蛙作為動物模型來研究Bip在胚胎髮育過程中，尤其是在前腎發育中的生物功能。Bip是一個母性因子，在尾芽期，Bip 表達在粘液腺，前腎，肝以及耳囊。 Bip在前腎清晰明確的表達，表明Bip可能在前腎的發育中發揮作用。我們利用BipMO來進行敲低功能實驗，免疫印記顯示BipMO能阻斷帶Flag標記Bip的翻譯。通過原位雜交技術檢測前腎的不同標記基因的表達發現，敲低Bip抑制前腎的形成，表明Bip的正常表達是前腎發育所必須的。 / 為了研究Bip調節前腎的發育的分子機制，我們使用Affmetrix基因芯片分析在Bip敲低情況下的不同時期胚胎中基因的表達譜，發現在Bip敲低表達的胚胎中，視黃酸信號通路的一些重要的組分的表達受到抑制。爪蛙胚胎原腸胚的動物帽細胞具有多能性，使用激活素和視黃酸一同處理動物帽細胞可以誘導其分化成為原腎組織。在此體外分化體系中敲低Bip表達，前腎標記基因表達降低，顯示在這一體外系統中前腎的分化受到抑制。該實驗結果與體內實驗結果一致。在體外培養的HEK293T細胞中敲低Bip，抑制視黃酸處理後視黃酸信號通路螢光素報告的活性。 lhx1是前腎發育早期表達標記之一，對於前腎原基的初始化具有重要的作用，同是它也是視黃酸信號通路的靶基因。共同註射BipMO和lhx1表明，前腎的異常可以明顯降低，顯示lhx1可以部份拯救由於Bip缺失所造成的腎臟發育缺陷。該實驗表明Bip通過調節視黃酸信號通路，來調控lhx1的表達前腎的形成。我們進一不發現，敲低Bip後，前腎異常形成的區域內，細胞凋亡增加，增殖減少。該結果在細胞水平上解釋了Bip敲低表達時前腎形成異常的一個原因。 / 综述所述，Bip正確表達对胚胎前肾的发育極為重要。它胚胎发育过程中通过視黃酸信号通路調控lhx1的表達，從而对前肾的形成发挥重要作用。 / Glucose-regulated protein 78 (Grp78), also known as Bip, belongs to heat shock protein 70kDa family. It has been implicated in various biological processes including protein folding, regulation of calcium homeostasis, and serving as a sensor of ER (Endoplasmic Reticulum) stress. Moreover, it can localize in cell membrane, acting as co-receptor of nodal signaling. It is essential for insulin biosynthesis. In addition, Bip plays important roles in a number of diseases. For example, BIP can improve β-cell function in the prolonged hyperglycemia. Knockdown of BIP in β-cell can induce apoptosis. However, little is known about its function during embryonic development. / In high vertebrate, three sets of nephric forms develop successively during embryonic kidney development. They are pronephros, mesonephros, and metanephros. Nephron is the basic structural and functional unit of all these three forms. In amphibian, the pronephros performs function at the embryonic stages, which has only one nephron on either side of the body. It makes Xenopus a very good model for pronephros study. / In this study, we took advantage of Xenopus leavis as an animal model to investigate Bip function during embryonic development, especially its role in pronephros development. We first examined the expression of Bip in developing embryos. Whole mount in situ hybridization showed that Bip was expressed in the cement gland, pronephros, liver and ear vesicle during tailbud stages. It was expressed in the pronephros strongly and clearly which suggested that Bip might play roles in pronephros development. We performed loss-of-function experiment by using morpholino oligonucleotide (MO) knock down translation of endogenous Bip expression. Depletion of Bip impaired formation of pronephros revealed by reduction expression of different pronephros maker genes. The pluripotent animal caps can differentiate into pronephros tissue when treated with activin and all-trans retinoic acid (atRA) in vitro kidney induction assay. In line with our in vivo observation, knockdown of Bip inhibited pronephros differentiation that can normally achieved by combined effects of activin and atRA in animal cap assay. / In order to investigate the molecular mechanisms as how Bip regulated pronephros development, we performed Affymetrix DNA microarray assay to generate gene expression profile in Bip morphants. We found that some components of RA signaling were inhibited when Bip was knockdown. Moreover, knockdown of Bip caused reduction of RA target genes expression after treatment with RA. Consistent with above observations, luciferase activities of RA signaling reporter was reduced in HEK293T cells when BIP expression was depleted by RNAi. lhx1 is one of RA target genes and has been implicated playing essential roles in pronephros development. The inhibition of pronephros formation induced by Bip depletion can be partially rescued by co-overpression, suggesting 1) lhx1 is downstream of Bip in the regulatory network of pronephros formation; and 2) Bip regulates pronephros formation through RA signaling via lhx1. We also found increased apoptosis and decreased cell proliferation at pronephros-forming region in Bip morphants. That could explain the reason of pronephros malformation when Bip is downregulated. / Taken together, Bip is essential for pronephros development. It functions through RA signaling during the complex developmental processes. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Shi, Weili. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 125-143). / Abstracts also in Chinese. Heat shock proteins Xenopus laevis--Embryology Kidneys--Growth Heat-Shock Proteins Xenopus laevis--embryology Kidney--growth & development
122	Cloning and characterization of a cDNA encoding er1, a novel developmentally regulated FGF response gene / Li, Yu, January 1998 (has links) Thesis (M.Sc.), Memorial University of Newfoundland, 1998. / Restricted until June 1999. Bibliography: leaves 85-97.
123	Investigation of the regulation of nuclear translocation of the transcription factor mesoderm induction-early response 1 (mi-er1) during embryonic development of Xenopus laevis / Post, Janine Nicole, January 2002 (has links) Thesis (Ph.D.)--Memorial University of Newfoundland, 2002. / Bibliography: leaves 251-271.
124	Invasive biology of Xenopus laevis in Europe : ecological effects and physiological adaptations / Biologie de l’invasion de Xenopus laevis en Europe : adaptations physiologiques et effets écologiques Courant, Julien 19 September 2017 (has links) A cause de l’actuel déclin mondial de la biodiversité, la compréhension des conséquences de chaque menace sur la biodiversité est un élément crucial en biologie de la conservation. Les espèces exotiques envahissantes représentent une de ces menaces à l’échelle mondiale, et peuvent induire localement des dommages au sein des écosystèmes. Etudier les phénomènes régissant les effets négatifs de ces espèces, et leurs potentiels d’expansion apparaît actuellement comme un élément crucial pour déterminer leurs effets sur le long terme. Dans cette étude, nous focalisons nos efforts sur une population exotique envahissante du Xénope lisse, Xenopus laevis, en France, pour apporter de nouvelles connaissances sur les interactions de cette population avec son environnement et pour étudier les changement dans l’allocation des ressources aux traits d’histoire de vie liés à la reproduction la survie et la dispersion durant l’expansion de l’aire de répartition. Nous étudions le régime alimentaire de l’espèce en France et dans d’autres populations introduites et autochtones et concluons que cette espèce peut étendre sa répartition en consommer une faible, comme une importante diversité de proies. Nous détectons également un potentiel impact de l’espèce sur les amphibiens autochtones de France. Dans la seconde section de la thèse, nous rapportons une réduction de l’allocation des ressources à la reproduction et une augmentation de la dispersion, sur le front de colonisation. Enfin, nous étudions la dynamique des populations et détectons une faible probabilité de survie, et une faible densité en individus dans le centre de l’aire de répartition. La combinaison de ces résultats suggère que les potentiels effets négatifs sur le long terme sont importants pour cette espèce, en France, tout comme dans d’autres zones où l’espèce a été, ou sera, introduite. / Because of the current global biodiversity decline, understanding the consequences of each threat on biodiversity is crucial for conservation biology. Invasive species are among the main threats at the global scale, and can locally imply harmful damages on ecosystems. Studying the phenomena driving the effects and potential for expansion of these species appears as a crucial element to assess their long terms impacts. In this study, we focused our efforts on an invasive population of the African clawed frog, Xenopus laevis, in France, to bring insight about the interactions of this population with its environment and to study the changes in resource allocation to the life history traits, related to reproduction, survival and dispersal probabilities, during the range expansion of the population. We studied the diet in the French invasive population and in other invasive and native populations, and found that this species can expand by predating a narrow, as well as a broad, range of prey categories. We also detected an impact of X. laevis on the native amphibian community in France. In the second section of the thesis, we reported a decrease in reproductive investment, and an increased dispersal allocation of resources at the range edge. We finally studied population dynamics and detected a lower survival probability and density at the range core. All these results combined suggest that the potential for long term impacts is important in France for X. laevis as well as in other areas where the species has been, or will be, introduced. Xenopus laevis Envahissante Allocation des ressources Expansion d’aire Dispersion Impact écologique Xenopus laevis Invasive Resource allocation Range expansion Dispersal Ecological impact
125	Receptores hP2X7 requerem ânions e cátions extracelulares e a cauda C-terminal para gerar altas correntes não seletivas em oócitos de Xenopus laevis / Receptores hP2X7 requerem ânions e cátion extracelulares e a cauda C-terminal para gerar altas correntes não seletivas em oócitos de Xenopus laevis Kmit, Arthur, 1987- 23 August 2018 (has links) Orientador: Antônio Fernando Ribeiro / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-23T16:58:35Z (GMT). No. of bitstreams: 1 Kmit_Arthur_M.pdf: 1478515 bytes, checksum: 34c7bf6fcce0ab6ab1b63b0927edcf98 (MD5) Previous issue date: 2013 / Resumo: O receptor purinérgico P2X7 é um canal iônico permeável a cátions pertencente da família P2X (P2X1-P2X7). Ele é ativado por altas concentrações (100?M - 1000?M) de ATP (Adenosine 5?-triphosphate), apresentando duas distintas respostas: 1) uma rápida ativação do canal, 2) uma segunda ativação, lenta e continua, que gera largos poros na membrana celular, permeáveis a grande moléculas (900 Da). O receptor P2X7 está envolvido em processos como morte celular, formação de células gigantes e secreção de citocinas como IL-1? e está predominantemente presente em células imunes. Neste estudo foi examinado como as altas correntes do P2X7 são geradas e qual o mecanismo necessário para serem ativadas em oócitos de Xenopus laevis. Os oócitos foram cirurgicamente retirados de uma rã adulta de Xenopus laevis e injetamos o cRNA do P2X7 para expressa-los na membrana celular. Medimos a condutância através da técnica de Voltage Clamp (TEVC). A incubação dos Oócitos superexpressos com P2X7 em BABTA-AM demonstrou que o Ca2+ extracelular, e não intracelular, é necessário para gerar altas correntes não seletivas através do P2X7, e a reposição de íons extracelular (Cl- e Na+) demonstrou regula-las. A mutação de truncamento da cauda C-terminal na proteína P2X7 gerou uma corrente menor após a estimulação com 1mM de ATP. E ainda três bloqueadores de canais o Ácido Tânico, o AO1 e o NPPB inibiram significativamente as correntes geradas pelo P2X7. Nós concluímos que (i) Os oócitos de Xenopus que expressam P2X7 produzem altas correntes não seletivas após estimulação com ATP, (ii) A ativação do P2X7 requer tanto o influxo de Ca2+ e a cauda C-terminal, e (iii) as correntes do P2X7 são regulados por cátions e ânions extracelulares / Abstract: The purinergic P2X7 receptor is an ion channel permeable to cations which belong to the P2X family (P2X1-P2X7). It is activated by high concentrations (100?M - 1000?M) of ATP (adenosine 5'-triphosphate), presenting two distinct responses: 1) a rapid activation of the channel, 2) a second activation, slow and continuous, which generates a large pore in the cell membrane permeable to large molecules (900 Dalton). The P2X7 receptor is involved in processes such as cell death, giant cell formation and secretion of cytokines such as IL-1? and is present predominantly on immune cells. In this study we examined how the P2X7 high currents are generated and what is the mechanism required to be activated in Xenopus laevis oocytes. Oocytes were surgically removed from an adult frog Xenopus laevis and injected with cRNA to express the P2X7 in the cell membrane. We measure the conductance through the Voltage Clamp technique (TEVC). Incubation of oocytes overexpressed with P2X7 receptors in BABTA-AM demonstrated that extracellular Ca2+, and do not intracellular, it is necessary to generate nonselective high currents through P2X7, and replacing extracellular ions (Cl- and Na+) showed regulate them. The truncation mutation in C-terminal tail of the P2X7 protein generated a smaller current after stimulation with 1 mM ATP. And three channel blockers Tannic Acid, AO1 and NPPB significantly inhibited the generated currents by P2X7. We conclude that (i) Xenopus oocytes expressing P2X7 produce a nonselective high currents after stimulation with ATP (ii) Activation of the P2X7 requires both the influx of Ca2+ and C-terminal tail, and (iii) the currents of the P2X7 are regulated by extracellular cations and anions / Mestrado / Saude da Criança e do Adolescente / Mestre em Ciências Receptores purinérgicos P2X7 Adenosina trifosfato Xenopus laevis Técnicas de Voltage-Clamp Receptors, Purinergic P2X7 Adenosine triphosphate Xenopus laevis Voltage-Clamp techniques
126	Vliv alelických variant transportéru ABCG2 na transport kyseliny močové / Effect of ABCG2 allelic variants on the transport of uric acid Vávra, Jiří January 2019 (has links) Uric acid is a main metabolite of purine degradation in humans and in higher primates. Its increased plasmatic level is called hyperuricemia and may be the cause of gout and many other similar diseases. Uricemia is controlled by many transporters, which are located in proximal tubule of human kidney. When some transporter have abnormal function, the physiological plasmatic level of uric acid may be impaired. In genome wide association study (GWAS) it was discovered that some hyperuricemia or gout patients have ABCG2 protein damaged. This protein carries out uric acid from epithelial cell to the urine. The goal of this diploma thesis is the determination of transport capacity of ABCG2 allelic variants found via GWAS (Institute of Rheumatology of 1st medical faculty UK in Prague) in vitro with Xenopus laevis oocyte expression system. Uric acid secretion was compared with wild type variant. Keywords: Uric acid, GWAS study, Xenopus laevis, membrane transport protein, ABCG2
127	Genome-wide identification of Pax3 transcriptional targets during normal and pathological neural crest development / Identification à large échelle des gènes contrôlés par le facteur de transcription Pax3, durant le développement normal et pathologique de la crête neurale. Alkobtawi, Mansour 18 October 2019 (has links) La crête neurale est une population de cellules migratoires multipotentes qui se délaminent du tube neural et se différencient en plusieurs types cellulaires. Des altérations du réseau génique de régulation (GRN) de la CNengendrent des maladies congénitales, peu comprises. Cette thèse a pour but d’approfondir la compréhension du rôle de PAX3, un gène crucial dans le GRN de la CN, pendant le développement normal ou pathologique de la CN. Tout d’abord, nous avons caractérisé deux lignées transgéniques de X. laevis, Pax3:GFP etSox10:GFP qui permettent d’étudier l’induction et la spécification précoce de la CN ou sa migration, respectivement. Ensuite, en utilisant des analyses à large échelle, RNAseq et ChIPseq,nous avons défini le premier CN-GRN centré surPax3 chez X. laevis et avons notamment identifié quatre nouveaux gènes régulés par Pax3 :pcdh8l, ercc1 (directement) et fhl3, mmp14(indirectement). Des analyses par perte et gain de fonction de Pax3 in vivo ont permis de vérifier lapertinence de ces cibles.Puis, nous avons analysé le rôle des cibles, Fhl3,pendant le développement de la CN. Fhl3 s’est avéré être un stimulateur intracellulaire de la voie BMP qui, de manière contrôlée spatio-temporellement,est indispensable pour que les cellules cibles de BMP activent la production de WNT à un niveau suffisant pour le développement de la CN.Finalement, nous avons généré les premières lignées iPSC dérivées de patients atteints du syndrome de Waardenburg de type 1 qui ont un allèle de Pax3 muté et nous avons pu les différencier en CN. L’ensemble de ce travail apporte de nouveaux outils et de nouveaux gènes d’intérêt à étudier la CN tant chez X. laevis que chez l’humain. / The neural crest (NC) is a population of multipotent migratory cells that delaminate from the neural tube and differentiate into several cell types. Alterations in NC regulatory gene network (GRN) result in congenital diseases that are poorly understood. This thesis aims to better understand the role of Pax3, a crucial gene in NC GRN, during the normal orpathological NC development. First, we characterized two transgenic lines of X. laevis,Pax3:GFP and Sox10:GFP that allowed us to study the induction and early specification of NC or its migration, respectively. Then, using large scale analyzes, RNAseq and ChIPseq, we defined the first NC-GRN centered on Pax3 inX. laevis and identified in particular four new genes regulated by Pax3 : pcdh8l, ercc1(directly) and fhl3, mmp14 (indirectly). The relevance of these targets was verified by Pax3loss- and gain-of-function in vivo.Then, we analyzed the role of one target, Fhl3,during NC development. We have shown thatFhl3 is an intracellular stimulator of the BMP pathway, which, in a spatiotemporally controlled manner, is essential for BMP target cells to activate the production of WNT at a sufficient level for the development of NC.Finally, we generated the first iPSC lines derived from Waardenburg syndrome type 1patients with a heterozygous Pax3 loss-of function mutation and we were able to differentiate them into NC. All of this work brings new tools and new genes of interest to study NC in both X. laevis and humans. Crête neurale Syndrome de waardenburg Pax3 Fh13 Xenopus laevis IPSC Neural crest Waardenburg syndrom Pax3 Fh13 Xenopus laevis IPSC
128	Größenegulation der Augenanlage von Xenopus laevis durch Inhibition von Hedgehog-, Fgf- und Wnt-Signalen / size-regulation of the Xenopus laevis eye anlage by inhibition of Hedgehog-, Fgf- and Wnt-signals Cornesse, Yvonne 05 November 2003 (has links) No description available. Mathematics and Computer Science Xenopus laevis Embryonalentwicklung Auge Hedgehog Fgf Wnt 570 Biowissenschaften Biologie Xenopus laevis embryogenesis eye Hedgehog Fgf Wnt 42.13 42.23 WK000
129	Plasma Membrane Plasticity of Xenopus laevis Oocyte Imaged with Atomic Force Microscopy Schillers, Hermann, Danker, Timm, Schnittler, Hans-Joachim, Lang, Florian, Oberleithner, Hans 20 March 2014 (has links) (PDF) Proteins are known to form functional clusters in plasma membranes. In order to identify individual proteins within clusters we developed a method to visualize by atomic force microscopy (AFM) the cytoplasmic surface of native plasma membrane, excised from Xenopus laevis oocyte and spread on poly-L-lysine coated glass. After removal of the vitelline membrane intact oocytes were brought in contact with coated glass and then rolled off. Inside-out oriented plasma membrane patches left at the glass surface were first identified with the lipid fluorescent marker FM1-43 and then scanned by AFM. Membrane patches exhibiting the typical phospholipid bilayer height of 5 nm showed multiple proteins, protruding from the inner surface of the membrane, with heights of 5 to 20 nm. Modelling plasma membrane proteins as spherical structures embedded in the lipid bilayer and protruding into the cytoplasm allowed an estimation of the respective molecular masses. Proteins ranged from 35 to 2,000 kDa with a peak value of 280 kDa. The most frequently found membrane protein structure (40/μm2) had a total height of 10 nm and an estimated molecular mass of 280 kDa. Membrane proteins were found firmly attached to the poly-L-lysine coated glass surface while the lipid bilayer was found highly mobile. We detected protein structures with distinguishable subunits of still unknown identity. Since X. laevis oocyte is a generally accepted expression system for foreign proteins, this method could turn out to be useful to structurally identify specific proteins in their native environment at the molecular level. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Lipiddoppelschicht Membranprotein Membranfluidität Xenopus laevis Eizelle Lipid bilayer Membrane protein Membrane fluidity Molecular volume Xenopus laevis oocyte ddc:540 ddc:610 rvk:VA 1120 rvk:XA 10000
130	Muscarinic actions in Xenopus laevis tadpole swimming Porter, Nicola J. January 2013 (has links) Muscarinic acetylcholine receptors (mAChRs) mediate effects of acetylcholine (ACh) in many systems, including those involved in locomotion. In the stage 37/38 Xenopus laevis tadpole, a well-understood model system of vertebrate locomotion, mAChRs have been found to be located on motor neurons with evidence suggesting that mAChRs are involved in swimming behaviour. The current study aimed to further investigate the role of mAChR-mediated cholinergic transmission by employing extracellular and whole-cell patch clamp recordings to examine the effects of mAChR activation on the properties of different types of neurons in the Xenopus laevis tadpole swimming circuit. It was found that mAChR activation can increase the threshold for initiating swimming by skin stimulation and can lead to the generation of spontaneous motor output in the absence of physical stimuli. These effects were found to be a result of direct inhibition of dorsolateral sensory interneurons of the mechanosensory pathway, direct inhibition of glycinergic inhibitory interneurons in the CPG and a decrease in CPG neuron firing reliability during swimming. The data presented here comprise the first whole-cell patch-clamp investigation into mAChR-mediated cholinergic transmission in the Xenopus laevis tadpole swimming circuit and provide novel evidence that mAChRs modulate the properties of mechanosensory pathway and CPG neurons in this model system of vertebrate locomotion. 573.7

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