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131	Functions of Heparan Sulfate During Mouse Development : Studies of Mice with Genetically Altered Heparan Sulfate Biosynthesis Ringvall, Maria January 2004 (has links) <p>Heparan sulfate (HS) is a ubiquitous polysaccharide on the cell surface and in the extracellular matrix. HS is an important actor in the regulation of cell signaling, especially in the developing embryo. In combination with cell culture and biochemical experiments, <i>in vivo</i> studies of genetically modified animals have pointed out the sulfation pattern of HS as highly important for binding of ligands, their receptors and other signaling modulators.</p><p>The sulfation pattern of an HS chain is gained by several modifying steps, performed by multiple enzymes during biosynthesis in the Golgi apparatus. By alterations of sulfation pattern, and the amount of sulfate groups, a cell can regulate the binding properties of its HS to different molecules. The most highly sulfated form of HS is called heparin, and can only be found intracellularly in mast cells.</p><p>This thesis describes the phenotypes and the alterations in HS/heparin biosynthesis of two genetically modified mouse strains deficient in N-deacetylase/N-sulfotransferase-1 (NDST1) and -2 (NDST2) respectively. We have found NDST1 to be important for correct sulfation of HS and that NDST2 is crucial in heparin biosynthesis. NDST2 deficient mice completely lack heparin and therefore have a severe mast cell phenotype. NDST1 deficient mice produce undersulfated HS and show several developmental disturbances. Some NDST1 embryos die in utero while the rest die neonatally due to breathing difficulties. Defect brain, eye and skeletal development has also been observed while some organs, such as the liver, appear to be largely unaffected. Several phenotypes are similar to defects seen in other mouse strains with impaired fibroblast growth factor and bone morphogenetic protein signaling, among others. This suggests the phenotypes of NDST1 deficient embryos to be of a multi factorial origin, in complete accordance to the many signaling pathways HS is suggested to modulate.</p> Developmental biology embryonic development gene targeting lung development ossification heparan sulfate heparin N-deacetylase/N-sulfaotransferase NDST proteoglycan morphogen biosynthesis Utvecklingsbiologi Developmental biology Utvecklingsbiologi
132	Heparan Sulfate and Development : A Study of NDST Deficient Mice and Embryonic Stem Cells Holmborn, Katarina January 2006 (has links) <p>Heparan sulfate (HS) proteoglycans consist of sulfated HS chains covalently bound to core proteins. They are ubiquitously expressed, on the cell surface and in the extracellular matrix, throughout the body. During biosynthesis the HS chain is modified to generate a highly variable pattern of sulfated residues, able to interact with a wide variety of ligands, such as growth factors, morphogens and extracellular matrix molecules. The presence of HS proteoglycans is crucial during various developmental processes as they are involved in generation of morphogen gradients and influence the function of several growth factor pathways essential for tissue assembly and differentiation.</p><p>In this thesis the phenotypes of two mouse strains, deficient in different isoforms of the HS biosynthetic enzyme N-deacetylase/N-sulfotransferase (NDST) have been analyzed. In addition, NDST deficient embryonic stem (ES) cells have been analyzed with regard to HS structure and differentiation capacity. Mice deficient in NDST1 die peri-natally. The embryos display an overall low-sulfated HS and several developmental defects, with a lung phenotype as the predominant cause of death. Mice deficient in NDST2 lack sulfated heparin in connective tissue type mast cells while HS structure is unaltered. These results indicate that NDST1 is the isoform mainly responsible for HS biosynthesis during development. However, NDST1/2 deficient embryos do not survive beyond E5.5 and have a greatly disturbed morphology, suggesting that NDST2 has an essential role during early embryonic development. HS synthesized by NDST1/2 deficient ES cells had a total lack of N-sulfate groups while, interestingly, about half of the 6-O-sulfate groups remained. This result was unexpected since 6-O-sulfotransferases have been thought to be strictly dependent on N-sulfate groups for substrate recognition. Further characterization of the NDST1/2 deficient ES cells during in vitro differentiation demonstrated that the expression pattern of markers for all three germ layers was disturbed. In addition, it was demonstrated that NDST1 is not needed for mast cell development, that lack of NDST2 results in abnormal mast cells and that no mast cells is formed from NDST1/2 deficient ES cells.</p> Cell and molecular biology heparan sulfate proteoglycan biosynthesis N-deacetylase/N-sulfotransferase NDST gene targeting embryonic development lung development mast cells Cell- och molekylärbiologi
133	Vitamin E and the alpha-tocopherol transfer protein during zebrafish embryogenesis Miller, Galen W. (Galen William) 04 May 2012 (has links) Vitamin E was first described in 1922 as an unknown factor required for impregnated rats to carry their offspring to term. In fact, when vitamin E was chemically characterized it was given the name "tocopherol" derived from the Greek: tokos = childbirth; phero = to bear; and –ol, indicating an alcohol. Vitamin E is linked to animal health and wellness, maternal fertility and a human neurodegenerative condition, ataxia with vitamin E deficiency However, embryonic vitamin E requirements during development remained unknown. We hypothesized that vitamin E is critical, not only for the mother, but specifically by the embryo for proper development. To separate the embryonic and maternal requirements, we employed an innovative model for the study of vitamin E: the zebrafish. We began by formulating and testing the first fully defined diet sufficient for zebrafish health. We then removed vitamin E from the formula to create our E deficient (E-) diet, which, when fed to adult zebrafish (for >3 months), resulted in E- adults that produced viable, E- gametes. Deficient embryos initially developed normally; however, by 48 hours post fertilization (hpf), E- embryos developed severe malformations leading to significant mortality. Thus, we demonstrated for the first time an embryonic vitamin E requirement. We provided further insight into the embryonic vitamin E requirement by analyzing the transcriptional changes occurring prior to the observed malformations. The transcriptome revealed a putative mechanism of action for vitamin E in development, in which vitamin E deficiency leads to the dysregulation of key metabolic co-activators. Finally, to understand the trafficking of vitamin E, we identified the zebrafish α-tocopherol transfer protein (TTP). We demonstrated that the zebrafish TTP is homologous to its human counterpart, and its expression is both spatially and temporally regulated during embryonic development. Knocking down the expression of TTP, using morpholinos injected at the one-cell stage, resulted in early and severe malformations in the developing head and tail. Consequently we revealed a definitive role for TTP during development. Taken together the work described here presents a new direction for future research into the role of vitamin E and TTP in post-implantation development. / Graduation date: 2012 zebrafish vitamin E tocopherol alpha-tocopherol transfer protein embryonic development defined diet Zebra danio -- Embryos -- Nutrition Vitamin E in animal nutrition Vitamin E deficiency Proteins
134	Mécanismes génétiques de lembryogenèse chez Phaseolus et application en hybridation interspécifique / Genetical mechanisms of Phaseolus embryogenesis and application in interspecific hybridization Silué, Souleymane 08 April 2009 (has links) Notre travail qui sinscrit dans le cadre général de létude du développement embryonnaire de Phaseolus a pour objectif principal disoler et de caractériser des gènes différemment exprimés chez les embryons en voie davortement, et donc nécessaires au développment normal des embryons. Des embryons en cours de dégénérescence issus des hybridations interspécifiques et de la mutagenèse induite ont été analysés. Des ADNc différemment exprimés chez ces embryons ont été identifiés par les techniques de lHybridation Soustractive Suppressive (HSS) et de la dot blot. Les hybridations interspécifiques ont été réalisées entre lespèce P. vulgaris L. utilisée comme parent mâle et les espèces P. coccineus L. et P. polyanthus Greenm. utilisées comme parents femelles (formes sauvages et cultivées). La mutagenèse induite à lEthyl Méthyl Sulfonate (EMS) a été appliquée sur le génotype BAT93 de P. vulgaris, une variété améliorée du CIAT. Dans les croisements P. coccineus x P. vulgaris, 938 hybridations ont été effectuées et le taux de gousses avortées au-delà de 8 JAP est denviron 12%. Quatre gousses supposées hybrides ont été obtenues. Pour les croisements P. polyanthus x P. vulgaris, 733 hybridations ont été réalisées. Le taux de gousses avortées au-delà de 8 JAP est denviron 18% et une seule gousse supposée hybride a été produite. Les caractères hybrides dune plante de chacune des deux combinaisons interspécifiques ont été mis en évidence au moyen de caractères morphologiques des fleurs et des graines, mais aussi grâce à lutilisation dun marqueur moléculaire, le microsatellite BM160. La mise en évidence et la caractérisation des embryons en voie davortement ont été effectuées à partir de matériels issus des hybridations interspécifiques et de la mutagenèse à lEthyl Méthyl Sulfonate (EMS). Les observations, faites sur des embryons extraits et sur des coupes histologiques dovules, révèlent des malformations au niveau du suspenseur et des cotylédons et des retards de croissance. Les plantes issues de la mutagenèse et produisant des graines avortant avant la maturité ont été croisées avec des plantes normales. Lanalyse de la F2 effectuée sur 96 plantes révèle une proportion mendélienne 3:1 de plantes avec des graines normales et de plantes avec graines qui avortent. Ce résultat suggère un contrôle du caractère « avortement des graines » par une paire dallèles récessifs. La technique de lHSS a permis disoler des fragments dADNs complémentaires différemment exprimés dans les graines en voie davortement. Lanalyse des séquences de ces ADNs complémentaires montre quils codent pour plusieurs protéines intervenant dans les développements cellulaire et embryonnaire. Les principales protéines sont le cytochrome P450, la myo-inositol 1-phosphate synthase, la peroxydase cationique, le voltage-dependent anion channel et la sucrose synthase. A lexception du cytochrome P450, les niveaux dexpression des autres gènes sont plus faibles dans les graines en voie davortement issues de la mutagenèse par rapport aux graines normales. The main objective of this study was to isolate and to characterize cDNAs differentially expressed in Phaseolus degenerating embryos. Aborting embryos from interspecific hybridizations and induced mutation were analysed. cDNAs differentially expressed in these embryos were isolated using the Suppressive Subtractive Hybridization (SSH) and the dot blot techniques. The interspecific hybridizations were performed between P. vulgaris L. used as male parent and P. coccineus L. and P. polyanthus Greenm. used as female parents (wild and cultivated forms). The induced mutation was performed whith Ethyl Methyl Sulfonate (EMS) applied on the genotype BAT93 of P. vulgaris, a breeding line from CIAT. A total number of 938 crosses P. coccineus x P. vulgaris and 733 crosses P. polyanthus x P. vulgaris were carried out. In the crosses P. coccineus x P. vulgaris, the rate of pod abortion after 8 days after pollination (DAP) is 12%. Four putative hybrid pods were obtained. The rate of pod abortion after 8 DAP in the crosses P. polyanthus x P. vulgaris is 18% and one putative hybrid pod was produced. The hybrid nature of one plant from each interspecific combination was confirmed using morphological characters of flowers and seeds and molecular marker (microsatellite BM160). The isolation and the characterization of degenerating embryos were realised with materials from interspecific hybridizations and from chemical mutagenesis with EMS. The observations of these two materials revealed abnormalities mainly in suspensor and cotyledons; and the embryos failed to grow normally. Plants from mutagenesis which produce degenerating seeds were crossed with normal plants. Genetic analysis on 96 F2 plants revealed a 3:1 Mendel ratio of plants with normal seeds and plants with degenerating seeds. This result suggests the control of the seed abortion trait by a single recessive gene. The SSH technique was used to isolate cDNAs fragments differentially expressed in aborting seeds. Analysis of the cDNAs sequences revealed that these cDNAs encode for proteins involved in cellular and embryonic development. The main proteins are cytochrome P450, myo-inositol 1-phosphate synthase, cationic peroxidase, voltage-dependent anion channel and sucrose synthase. All the genes showed a reduction of their expression in developing seeds of the mutagenized plants, compared to those observed in wild-type plants. Phaseolus
135	Evolutionary ecology of ultraviolet-B radiation stress tolerance in amphibians Pahkala, Maarit January 2001 (has links) During the last decades many amphibian species and populations have experienced declines and extinctions in different parts of the world. Anthropogenic activities are believed to account for these declines, and one of the hypothesized causes has been the increased level of ultraviolet-B (UV-B) radiation due to depletion of the stratospheric ozone layer. Although negative effects of UV-B radiation on development of many amphibian species have been demonstrated, a number of potentially critical issues around assessment of amphibian UV-B radiation tolerance have remained unexplored. For instance, next to nothing is known about geographic variation in UV-B tolerance and about possible carry-over effects of early UV-B exposure to later life-stages. Likewise, synergistic effects with other stressors, as well as sublethal effects on growth have received little attention. The results from field and laboratory experiments show that R. temporaria and R. arvalis are relatively tolerant to even high levels of UV-B in terms of embryonic survival. However, it was found that even normal levels of UV-B can reduce early embryonic growth. In addition, the effects of early exposure to UV-B became manifested mostly or only after a considerable time-lag (i.e. at metamorphosis). Furthermore, it was found that the sublethal effects of UV-B may become manifested only in combination with other stressors, such as low pH, and this synergism may differ among different populations. No evidence for genetic differentiation in UV-B tolerance was found. These findings suggest that even a relatively tolerant species, such as R. temporaria, may be sensitive to increased levels of UV-B radiation, but that this sensitivity may be highly population, environment and trait dependent. The observed carry-over effects over life-stages emphasise the importance of the early life environment on later life fitness. Developmental biology amphibians anomalies embryonic development geographic variation growth Rana arvalis Rana temporaria survival UV-B radiation Utvecklingsbiologi Developmental biology Utvecklingsbiologi
136	Heparan Sulfate Biosynthesis – Clues from Knockout Mice Ledin, Johan January 2004 (has links) In the extracellular space, many specialized proteins are located to support cells and to mediate cell-cell signalling. One class of such molecules is heparan sulfate (HS) proteoglycans, which are proteins with different properties and locations but all of them decorated with long unbranched HS polysaccharide chains. During biosynthesis the HS chains are modified by sulfation and a C5-epimerase converts some glucuronic acid residues to iduronic acid. The patterns of the modifications vary distinctly between tissues and developing stages and give HS chains different affinity for biologically important proteins. Thus, the regulation of HS biosynthesis is likely to influence a wide variety of biological events. This thesis focuses on the biosynthesis of HS in animals with targeted disruptions in genes important for HS production. The N-deacetylase N-sulfotransferase (NDST) is a key enzyme in HS biosynthesis, directing other modifications. We show that NDST isoforms have very different roles in HS biosynthesis. Inactivation of NDST1 affects HS biosynthesis in all tissues. In embryonic liver HS from NDST1-/- mice the N-sulfation was decresed with twothirds, while the absence of NDST2 did not affect HS structure. In the absence of NDST1 in the liver, however, NDST2 is active in HS N-sulfation. In a study of embryonic stem cells lacking both NDST1 and NDST2, no N-sulfate groups could be detected. 6-O-sulfate groups were, however, still present at half of its normal level. This was an unexpected finding since 6-O-sulfotransferases have been thought to be strictly dependent on N-sulfate groups for substrate recognition. By adapting an automated method for HS analysis to mammalian tissues, we could extend our analyses to more tissues and other transgene models. We also developed a protocol to create a sensitive “fingerprint” of HS structure. With these methods we could determine the individual HS structure of different mouse tissues. Cell and molecular biology heparan sulfate biosynthesis gene targeting embryonic development proteoglycans NDST N-deacetylase/N-sulfotransferase Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
137	Functions of Heparan Sulfate During Mouse Development : Studies of Mice with Genetically Altered Heparan Sulfate Biosynthesis Ringvall, Maria January 2004 (has links) Heparan sulfate (HS) is a ubiquitous polysaccharide on the cell surface and in the extracellular matrix. HS is an important actor in the regulation of cell signaling, especially in the developing embryo. In combination with cell culture and biochemical experiments, in vivo studies of genetically modified animals have pointed out the sulfation pattern of HS as highly important for binding of ligands, their receptors and other signaling modulators. The sulfation pattern of an HS chain is gained by several modifying steps, performed by multiple enzymes during biosynthesis in the Golgi apparatus. By alterations of sulfation pattern, and the amount of sulfate groups, a cell can regulate the binding properties of its HS to different molecules. The most highly sulfated form of HS is called heparin, and can only be found intracellularly in mast cells. This thesis describes the phenotypes and the alterations in HS/heparin biosynthesis of two genetically modified mouse strains deficient in N-deacetylase/N-sulfotransferase-1 (NDST1) and -2 (NDST2) respectively. We have found NDST1 to be important for correct sulfation of HS and that NDST2 is crucial in heparin biosynthesis. NDST2 deficient mice completely lack heparin and therefore have a severe mast cell phenotype. NDST1 deficient mice produce undersulfated HS and show several developmental disturbances. Some NDST1 embryos die in utero while the rest die neonatally due to breathing difficulties. Defect brain, eye and skeletal development has also been observed while some organs, such as the liver, appear to be largely unaffected. Several phenotypes are similar to defects seen in other mouse strains with impaired fibroblast growth factor and bone morphogenetic protein signaling, among others. This suggests the phenotypes of NDST1 deficient embryos to be of a multi factorial origin, in complete accordance to the many signaling pathways HS is suggested to modulate. Developmental biology embryonic development gene targeting lung development ossification heparan sulfate heparin N-deacetylase/N-sulfaotransferase NDST proteoglycan morphogen biosynthesis Utvecklingsbiologi Developmental biology Utvecklingsbiologi
138	Roles of Sox3 and Lmx 1b in early development of the inner ear Khatri, Safia 23 March 2009 (has links) En els darrers anys s'ha produït un gran avenç en l'enteniment dels mecanismes implicats en la inducció de la placoda òtica. Tanmateix, poc es coneix encara de com s'estableix un domini amb competència neural i un altre no-neural i aquest ha estat l'objectiu d'aquesta tesi doctoral. Hem analitzat els mecanismes moleculars rellevants per la regionalització primarenca de la placoda òtica i hem explorat el paper de Sox3 i Lmx1b en l'establiment i manteniment d'un territori competent neural, emprant l'embrió de pollet com organisme model. Els resultats mostren que el gen Sox3, inicialment expressat en un territori extens, es regionalitza en un domini òtic i epibranquial proneural. La sobreexpressió de Sox3 a estadis preòtics, indueix la generació de precursors neuronals que expressen Sox2 i Delta1, però aquests no aconsegueixen progressar a estadis de major diferenciació. A la vegada, Sox3 és capaç de inhibir la expression de Lmx1b, un gen expressat en el domini no-neural, suggerint que el seu patró final depèn de l'activitat neurogènica de la oïda interna. Finalment, presento evidències que la senyalització mitjançada per BMP té un paper primerenc en l'establiment de l'expressió de Lmx1b en el territory òtic, però que ni l'activitat de BMP ni l'expressió de Lmx1b influencien el procés de determinació neural. En conclusió, els nostres resultats posen de relleu nova informacióour dels mecanismes moleculars que governen els primers passos de la competencia neural i regionalizació de la placoda òtica en un territori neural i un no-neural. / During the last years, a great progress has been made in understanding the mechanisms involved in otic induction but the mechanism behind otic patterning into neural and non-neural domains is still an open question and the major aim of this work was to address this question. We have analyzed the molecular mechanisms underling the early regionalization of the otic placode, and explored the role of Sox3 and Lmx1b in the establishment and maintenance of a neural competent domain in the otic placode by using the chick as a model system. The results show that Sox3 expression initially expressed in a broad domain gets regionalized in otic/epibranchial proneural domain. Overexpression of Sox3 at preotic stages can induce ectopic neuronal precursor cells expressing Sox2 and Delta1 but does not allow the ectopically developed neuronal precursor cells for further differentiation. Sox3, besides providing neural competence to the proneural domain, regulates the posterior non-neural gene Lmx1b suggesting that its final expression pattern depends on the neural activity. Finally, I present evidence that BMP signaling has an early role in inducing Lmx1b expression in the otic field but that neither BMP activity nor Lmx1b expression influence neural commitment. Taken together, our results provide new information and shed light on the molecular mechanisms that underlie the first steps of the neural competence and otic patterning in proneural and non-neural domain. otic placode chick BMP Lmx1b SoxB1 neural induction patterning neurogenesis inner ear embryonic development Placoda òtica Pollet Regionalització Inducció Neural Desenvolupament embrionàri Neurogènesi Oïda Interna 575 577 59
139	Heparan Sulfate and Development : A Study of NDST Deficient Mice and Embryonic Stem Cells Holmborn, Katarina January 2006 (has links) Heparan sulfate (HS) proteoglycans consist of sulfated HS chains covalently bound to core proteins. They are ubiquitously expressed, on the cell surface and in the extracellular matrix, throughout the body. During biosynthesis the HS chain is modified to generate a highly variable pattern of sulfated residues, able to interact with a wide variety of ligands, such as growth factors, morphogens and extracellular matrix molecules. The presence of HS proteoglycans is crucial during various developmental processes as they are involved in generation of morphogen gradients and influence the function of several growth factor pathways essential for tissue assembly and differentiation. In this thesis the phenotypes of two mouse strains, deficient in different isoforms of the HS biosynthetic enzyme N-deacetylase/N-sulfotransferase (NDST) have been analyzed. In addition, NDST deficient embryonic stem (ES) cells have been analyzed with regard to HS structure and differentiation capacity. Mice deficient in NDST1 die peri-natally. The embryos display an overall low-sulfated HS and several developmental defects, with a lung phenotype as the predominant cause of death. Mice deficient in NDST2 lack sulfated heparin in connective tissue type mast cells while HS structure is unaltered. These results indicate that NDST1 is the isoform mainly responsible for HS biosynthesis during development. However, NDST1/2 deficient embryos do not survive beyond E5.5 and have a greatly disturbed morphology, suggesting that NDST2 has an essential role during early embryonic development. HS synthesized by NDST1/2 deficient ES cells had a total lack of N-sulfate groups while, interestingly, about half of the 6-O-sulfate groups remained. This result was unexpected since 6-O-sulfotransferases have been thought to be strictly dependent on N-sulfate groups for substrate recognition. Further characterization of the NDST1/2 deficient ES cells during in vitro differentiation demonstrated that the expression pattern of markers for all three germ layers was disturbed. In addition, it was demonstrated that NDST1 is not needed for mast cell development, that lack of NDST2 results in abnormal mast cells and that no mast cells is formed from NDST1/2 deficient ES cells. Cell and molecular biology heparan sulfate proteoglycan biosynthesis N-deacetylase/N-sulfotransferase NDST gene targeting embryonic development lung development mast cells Cell- och molekylärbiologi
140	La dérivation de cellules souches embryonnaires chez le rat, Rattus norvegicus Demers, Simon-Pierre January 2009 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal Cellules souches embryonnaires Embryonic stem cells Blastocyste Blastocyst Capacité de développement Developmental capacity Destin cellulaire Cell fate Hétérogénéité Heterogeneity Développement embryonnaire Embryonic development Culture in vitro In vitro culture Rat Rat

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