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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.
11

The electronic structure of the Tyr-Cys· free radical in galactose oxidase determined by EPR spectroscopy

Lee, Yuk Ki 09 1900 (has links) (PDF)
M.S. / Biochemistry / The EPR spectrum of the Tyr-Cys· free radical in oxidized apoGAOX has been investigated, using a combination of approaches. Power saturation analysis has been used to resolve two unique spectra through Evolving Factor Analysis (EFA) global fitting, indicating the presence of two distinct free radical species in the sample. The component that dominates at low microwave power arises from the Tyr-Cys· side chain, while the high power component has not yet been assigned. The experimental results show that the EPR spectrum collected at low power includes approximately 7% of the high power component. EPR spectra have been collected for ten different isotope derivatives of GAOX, including ²H-labeled, ¹³C-labeled, 17[superscript]O-labeled, and ³³S-labeled forms. XSophe simulation of the EPR spectra has been performed for the isotopically labeled samples in order to determine the spectroscopic parameters - g-values, hyperfine coupling constants, and linewidths. The g-values and the methylene proton hyperfine coupling constants obtained for the isotopically labeled samples are consistent with the literature values. The magnitude of the hyperfine coupling constants associated with each of the nuclei confirms that significant electron spin density is found on the methylene protons, the alternating carbon atoms within the aromatic π system and the 2p[subscript]z orbital of both sulfur and oxygen. Moreover, the rotation angle of the methylene protons to the phenoxyl ring around the C1-C7 bond has been evaluated based on the experimentally defined hyperfine coupling constants of the two methylene protons.
12

Studium sekvencí genů zbarvení u činčil na základě homologie se sekvencemi vybraných savců

Poslušná, Michala January 2016 (has links)
In domesticated animals there are many different coat colours and mutations, often connected with pleiotropic effects. The aim of this thesis named The study of colour genes sequences in chinchilla based on homology of human and mice sequences was describe molecular genetic principles of pigmentation, introduce genes involved in melanogenesis and influencing a melanin function, their structure, mutations and mention other mutations which change the phenotype. Informations about alleles TYR, TYRP1, TYRP2/DCT, agouti, AGRP, gene group MCR (MC1R-MC5R) and more are focused on human (Homo sapiens), mouse (Mus musculus) and chinchilla (Chinchilla lanigera). In these three species was compared selected genes sequences TYR and TYRP2/DCT, results were studied, commented and mutations, which are very specific, but there are some analogs between human and mouse, were highlighted.
13

Tyr-MIF-1 Attenuates Development of Tolerance to Spiperone-Induced Catalepsy in Rats

Kostrzewa, Richard M., Kastin, Abba J. 01 January 1993 (has links)
Because the tripeptide MIF-1 (Pro-Leu-Gly-NH2) is known to attenuate the effects of neuroleptic-induced catalepsy as well as neuroleptic-induced proliferation of dopamine (DA) receptors, we studied the related naturally occurring peptide, Tyr-MIF-1 (Tyr-Pro-Leu-Gly-NH2) for similar properties. Male rats were treated SC for 11 consecutive days with either the DA D1 receptor antagonist SCH 23390 HC1 (0.50 mg/kg per day), the DA D2 receptor antagonist spiperone HCl (0.30 mg/kg per day), or vehicle. Half the rats were cotreated daily with Tyr-MIF-1 (1.0 mg/kg per day). The cataleptic effects of SCH 23390 were not altered by Tyr-MIF-1. Tolerance to SCH 23390-induced catalepsy did not develop during the 11-day treatment, and Tyr-MIF-1 had no effect on SCH 23390-induced catalepsy. However, tolerance developed to spiperone-induced catalepsy, and Tyr-MIF-1 attenuated this development of tolerance (p < 0.001). Locomotor and stereotyped activities of the DA D1 and D2 agonists, SKF 39393 (3.0 mg/kg) and quinpirole (3.0 mg/kg) were not affected by Tyr-MIF-1 after treatment with the DA antagonists was discontinued. Tyr-MIF-1 did not alter the Bmax or Kd for in vitro binding of [3H]SCH 23390 and [3H]spiperone to homogenates of the striatum. These findings indicate that Tyr-MIF-1 is able to selectively affect the development of receptor tolerance to a DA D2 receptor antagonist, and that this effect is unrelated to changes in affinity or numbers of D2 receptors.
14

In Vitro Studies of Tyr-MIF-1 With Human Lymphocytes

Chi, David S., Strimas, John H., Kastin, Abba J. 01 January 1989 (has links)
Our previous report showed that the brain peptide Tyr-MIF-1 (Tyr-Pro-Leu-Gly-NH2) blocks the inhibitory effect of morphine sulfate on E-rosette formation by human peripheral blood lymphocytes (PBL). In this study, additional in vitro effects of Tyr-MIF-1 on human PBL were studied. The percentages of positive cells for CD 2, a sheep erythrocyte receptor, CD 4 and CD 8 were unchanged after incubation of PBL with morphine or morphine plus Tyr-MIF-1. Tyr-MIF-1 was not mitogenic by itself. The addition of Tyr-MIF-1 did not increase the proliferative response of PBL to Con A, although morphine did. Tyr-MIF-1 did not activate PBL to produce IL 2 nor did it affect the production of IL 2 by Con A-stimulated PBL. The results suggest that Tyr-MIF-1 does not directly modulate CD 2, CD 4 and CD 8 expression, does not alter the proliferative response of PBL, and does not affect the production of IL 2.
15

En symbolisk lagstiftning : En kritiskt diskursteoretisk utmaning av religionsfrihetens gränser och eventuell nytolkning av dess innebörd / A symbolic legislation : A critical discourse theoretical examination of the swedish freedom of religion legislations’ boundaries and a possible reinterpretation of its meaning

Myrberg, Oskar January 2023 (has links)
The purpose of this critical discourse analysis study is to analyse Swedish and international legislation to determine if it is possible to restrict the use of religious symbols among extreme right movements. To contextualise the analysis material it is prudent to describe the rise and development of Nordic neo-paganism and its connections to extreme right movements. Since the runes in this study share some history with the swastika in Nazi Germany some context about the history of this symbol is also provided. I have divided the analysis into two sections: The first part evaluates legislation and includes the Swedish contitutional law (RF), the European convention on human rights (ECHR) as well as the Swedish discrimination law. The analysis also includes legislative information from the Swedish government agencies called the Chancellor of Justice and the Swedish Agency for Support to Faith Communities. The second part of the analysis focuses on two political extreme right parties called The Nordic resistance movement (NRM) and the Swedish party (SP) as well as their symbols, the tyr rune and the helmet of terror. The result of the analysis shows that it is not possible to limit the religious legislations’ inner core, which stipulates the rights of belief and freedom from it. It is however possible to make limitations in the legislations’ outer core which is mainly comprised of the freedom of speech dimension of the religious freedom.
16

Mecanismos moleculares e celulares de citotoxicidade de FGF2 parácrino em células tumorais dependentes de Ras / Molecular and cellular mechanisms of paracrine FGF2 cytotoxicity in Ras-driven tumor cells

Salotti, Jacqueline 30 June 2009 (has links)
Descrevemos, recentemente, que FGF2 parácrino dispara senescência nas linhagens celulares murinas Y1 e 3T3-B61, transformadas malignamente por Ras, mas sem ativação das vias apoptóticas (Costa et al., 2008). Nesta tese, estudamos os mecanismos celulares e moleculares desta resposta de estresse irreversível, disparada por FGF2. Focalizamos, principalmente, a linhagem Y1, que carrega uma amplificação do oncogene Kras, mas apresenta um controle parcial da transição G0/G1 &#8594; S do ciclo celular. Por estas características fenotípicas, as células Y1 foram utilizadas no estudo dos mecanismos das ações antagônicas de FGF2, isto é, a atividade mitogênica clássica e a nova ação citotóxica que causa senescência. Análises de citometria de fluxo e marcação com BrdU mostraram que FGF2 promove a transição G0/G1 &#8594; S (atividade mitogênica), mas bloqueia a progressão através de S e G2/M (atividade antimitogênica). Ensaios de viabilidade celular (MTS e Cyto-Tox) demonstraram que, durante o bloqueio do ciclo celular por FGF2, as células permanecem íntegras e metabolicamente ativas, embora exibam alterações morfológicas, que sugerem estresse celular. Além disso, experimentos de tomada de 3H-timidina em DNA evidenciaram que, já nas primeiras horas de G1, FGF2 dispara um processo antimitogênico que só tardiamente vai se manifestar na fase S, bloqueando a síntese de DNA. Verificamos ainda, que o inibidor específico da Tyr-quinase dos receptores de FGF, PD173074, abole completamente, tanto os efeitos mitogênicos como os antimitogênicos de FGF2 nas células Y1, demonstrando que ambos os processos iniciam-se com a ativação da Tyr-quinase dos FGFRs. Por outro lado, inibidores específicos das vias de sinalização de MEK/ERK, PI3K/AKT e PKC (todas mitogênicas e à jusante dos FGFRs) bloqueiam a progressão no ciclo celular, sem proteger as células Y1 de FGF2, evidenciando que estas vias mitogênicas não participam dos mecanismos moleculares citotóxicos disparados por FGF2. Entretanto, inibidores das Tyr-quinases Src protegem parcialmente as células Y1 de FGF2, implicando a família Src na transformação maligna destas células. Para buscar novos genes pertinentes à ação citotóxica de FGF2 analisamos expressão gênica por RT-qPCR, dando continuidade a estudos anteriores desenvolvidos no laboratório, através de microarranjos de cDNA (Asprino & Armelin, 2006). Desta busca, resultaram genes codificantes de proteínas envolvidas no controle de ciclo celular, adesão e citoesqueleto, com destaque para proteínas reguladoras de RhoGTPases e os receptores de FGF. Procuramos também examinar especificidades entre os FGFRs, quanto ao disparo das ações antagônicas de FGF2. As células Y1 expressam FGFR1IIIc, FGFR2IIIc e FGFR5 enquanto as 3T3-B61 expressam FGFR1IIIc e FGFR5. A redução da expressão de FGFR2 por RNAi, em células Y1, não impediu a ação citotóxica de FGF2, mas a redução de FGFR1 protegeu as células da ação morfológico-estressante de FGF2. Como FGFR5 não possui domínio de Tyr-quinase, concluímos que o FGFR1 é o receptor mais relevante para o efeito citotóxico de FGF2, em ambas as células. Em conclusão, FGF2 ativa a Tyr-quinase dos FGFRs, disparando mecanismos moleculares antagônicos, paralelos e independentes, onde o efeito final é o bloqueio do ciclo celular nas fases S e G2/M e, consequentemente, senescência celular. / We have recently described that paracrine FGF2 triggers senescence in Ras-driven murine cell lines Y1 and 3T3-B61, without activation of apoptotic pathways (Costa et al., 2008). On this thesis, we studied the molecular and cellular mechanisms of this irreversible stress response triggered by FGF2. We have mainly focused on the Y1 cell line, which carries Kras oncogene amplification, but presents a certain control of the G0/G1 &#8594; S cell cycle transition. Because of these phenotypic features, the Y1 cells were utilized to study the mechanisms of FGF2 antagonic actions, i. e., the classical mitogenic activity and the new cytotoxic action, which causes senescence. Flow cytometer analysis and BrdU labeling have shown that FGF2 promotes the G0/G1 &#8594; S transition (mitogenic activity), but arrests the progression through S and G2/M (antimitogenic activity). Viability assays (MTS and Cyto-Tox) have shown that, during the cell cycle arrest by FGF2, cells remain intact and metabolically active, although exhibiting morphologic alterations, which suggested cellular stress. Moreover, 3H-thymidine uptake into DNA has evidenced that, within the first hours of G1, FGF2 triggers an antimitogenic process that only lately will manifest in S phase, blocking DNA synthesis. We have further verified that the specific Tyr-kinase inhibitor, PD173074, completely abolishes both FGF2 mitogenic and antimitogenic effects, showing that both processes start at FGFRs Tyr-kinase. On the other hand, specific inhibitors of MEK/ERK, PI3K/AKT and PKC signaling pathways (all mitogenic and downstream of FGFRs) block the cell cycle progression, but do not protect cells from FGF2, showing that these pathways do not participate of the cytotoxic molecular mechanisms triggered by FGF2. However, Src Tyr-kinases inhibitors partially protect Y1 cells from FGF2, implicating the Src family on malignant transformation of these cells. To search new genes pertinent to the cytotoxic action of FGF2, we analyzed gene expression by RT-qPCR, continuing previous studies developed in our laboratory through cDNA microarrays (Asprino & Armelin, 2006). This search revealed protein-coding genes involved on cell cycle control, cellular adhesion and cytoskeleton, in which we highlighted regulatory proteins of RhoGTPases and FGF receptors. We also examined specificities among FGFRs in relation to FGF2 antagonic actions. Y1 cells express FGFR1IIIc, FGFR2IIIc and FGFR5 whereas 3T3-B61 cells express FGFR1IIIc and FGFR5. In Y1 cells, the knockdown of FGFR2 expression by RNAi do not stop FGF2 cytotoxic actions, but knockdown of FGFR1 expression protects cells from the FGF2 morphologic-stressing action. Since FGFR5 lacks Tyr-kinase domain, we concluded that FGFR1 is the most relevant receptor for FGF2 cytotoxic effect in both cells. In conclusion, FGF2 activates FGFRs Tyr-kinase, triggering parallel and independent antagonic molecular mechanisms, in which the final effect is the S and G2/M cell cycle arrest and, consequently, cellular senescence.
17

Mecanismos moleculares e celulares de citotoxicidade de FGF2 parácrino em células tumorais dependentes de Ras / Molecular and cellular mechanisms of paracrine FGF2 cytotoxicity in Ras-driven tumor cells

Jacqueline Salotti 30 June 2009 (has links)
Descrevemos, recentemente, que FGF2 parácrino dispara senescência nas linhagens celulares murinas Y1 e 3T3-B61, transformadas malignamente por Ras, mas sem ativação das vias apoptóticas (Costa et al., 2008). Nesta tese, estudamos os mecanismos celulares e moleculares desta resposta de estresse irreversível, disparada por FGF2. Focalizamos, principalmente, a linhagem Y1, que carrega uma amplificação do oncogene Kras, mas apresenta um controle parcial da transição G0/G1 &#8594; S do ciclo celular. Por estas características fenotípicas, as células Y1 foram utilizadas no estudo dos mecanismos das ações antagônicas de FGF2, isto é, a atividade mitogênica clássica e a nova ação citotóxica que causa senescência. Análises de citometria de fluxo e marcação com BrdU mostraram que FGF2 promove a transição G0/G1 &#8594; S (atividade mitogênica), mas bloqueia a progressão através de S e G2/M (atividade antimitogênica). Ensaios de viabilidade celular (MTS e Cyto-Tox) demonstraram que, durante o bloqueio do ciclo celular por FGF2, as células permanecem íntegras e metabolicamente ativas, embora exibam alterações morfológicas, que sugerem estresse celular. Além disso, experimentos de tomada de 3H-timidina em DNA evidenciaram que, já nas primeiras horas de G1, FGF2 dispara um processo antimitogênico que só tardiamente vai se manifestar na fase S, bloqueando a síntese de DNA. Verificamos ainda, que o inibidor específico da Tyr-quinase dos receptores de FGF, PD173074, abole completamente, tanto os efeitos mitogênicos como os antimitogênicos de FGF2 nas células Y1, demonstrando que ambos os processos iniciam-se com a ativação da Tyr-quinase dos FGFRs. Por outro lado, inibidores específicos das vias de sinalização de MEK/ERK, PI3K/AKT e PKC (todas mitogênicas e à jusante dos FGFRs) bloqueiam a progressão no ciclo celular, sem proteger as células Y1 de FGF2, evidenciando que estas vias mitogênicas não participam dos mecanismos moleculares citotóxicos disparados por FGF2. Entretanto, inibidores das Tyr-quinases Src protegem parcialmente as células Y1 de FGF2, implicando a família Src na transformação maligna destas células. Para buscar novos genes pertinentes à ação citotóxica de FGF2 analisamos expressão gênica por RT-qPCR, dando continuidade a estudos anteriores desenvolvidos no laboratório, através de microarranjos de cDNA (Asprino & Armelin, 2006). Desta busca, resultaram genes codificantes de proteínas envolvidas no controle de ciclo celular, adesão e citoesqueleto, com destaque para proteínas reguladoras de RhoGTPases e os receptores de FGF. Procuramos também examinar especificidades entre os FGFRs, quanto ao disparo das ações antagônicas de FGF2. As células Y1 expressam FGFR1IIIc, FGFR2IIIc e FGFR5 enquanto as 3T3-B61 expressam FGFR1IIIc e FGFR5. A redução da expressão de FGFR2 por RNAi, em células Y1, não impediu a ação citotóxica de FGF2, mas a redução de FGFR1 protegeu as células da ação morfológico-estressante de FGF2. Como FGFR5 não possui domínio de Tyr-quinase, concluímos que o FGFR1 é o receptor mais relevante para o efeito citotóxico de FGF2, em ambas as células. Em conclusão, FGF2 ativa a Tyr-quinase dos FGFRs, disparando mecanismos moleculares antagônicos, paralelos e independentes, onde o efeito final é o bloqueio do ciclo celular nas fases S e G2/M e, consequentemente, senescência celular. / We have recently described that paracrine FGF2 triggers senescence in Ras-driven murine cell lines Y1 and 3T3-B61, without activation of apoptotic pathways (Costa et al., 2008). On this thesis, we studied the molecular and cellular mechanisms of this irreversible stress response triggered by FGF2. We have mainly focused on the Y1 cell line, which carries Kras oncogene amplification, but presents a certain control of the G0/G1 &#8594; S cell cycle transition. Because of these phenotypic features, the Y1 cells were utilized to study the mechanisms of FGF2 antagonic actions, i. e., the classical mitogenic activity and the new cytotoxic action, which causes senescence. Flow cytometer analysis and BrdU labeling have shown that FGF2 promotes the G0/G1 &#8594; S transition (mitogenic activity), but arrests the progression through S and G2/M (antimitogenic activity). Viability assays (MTS and Cyto-Tox) have shown that, during the cell cycle arrest by FGF2, cells remain intact and metabolically active, although exhibiting morphologic alterations, which suggested cellular stress. Moreover, 3H-thymidine uptake into DNA has evidenced that, within the first hours of G1, FGF2 triggers an antimitogenic process that only lately will manifest in S phase, blocking DNA synthesis. We have further verified that the specific Tyr-kinase inhibitor, PD173074, completely abolishes both FGF2 mitogenic and antimitogenic effects, showing that both processes start at FGFRs Tyr-kinase. On the other hand, specific inhibitors of MEK/ERK, PI3K/AKT and PKC signaling pathways (all mitogenic and downstream of FGFRs) block the cell cycle progression, but do not protect cells from FGF2, showing that these pathways do not participate of the cytotoxic molecular mechanisms triggered by FGF2. However, Src Tyr-kinases inhibitors partially protect Y1 cells from FGF2, implicating the Src family on malignant transformation of these cells. To search new genes pertinent to the cytotoxic action of FGF2, we analyzed gene expression by RT-qPCR, continuing previous studies developed in our laboratory through cDNA microarrays (Asprino & Armelin, 2006). This search revealed protein-coding genes involved on cell cycle control, cellular adhesion and cytoskeleton, in which we highlighted regulatory proteins of RhoGTPases and FGF receptors. We also examined specificities among FGFRs in relation to FGF2 antagonic actions. Y1 cells express FGFR1IIIc, FGFR2IIIc and FGFR5 whereas 3T3-B61 cells express FGFR1IIIc and FGFR5. In Y1 cells, the knockdown of FGFR2 expression by RNAi do not stop FGF2 cytotoxic actions, but knockdown of FGFR1 expression protects cells from the FGF2 morphologic-stressing action. Since FGFR5 lacks Tyr-kinase domain, we concluded that FGFR1 is the most relevant receptor for FGF2 cytotoxic effect in both cells. In conclusion, FGF2 activates FGFRs Tyr-kinase, triggering parallel and independent antagonic molecular mechanisms, in which the final effect is the S and G2/M cell cycle arrest and, consequently, cellular senescence.
18

Étude archéologique et architecturale de la zone de l’hippodrome de Tyr / Architectural and archaeological study of the hippodrome site of Tyre

Kahwagi-Janho, Hany 11 September 2010 (has links)
Cette thèse a pour objet l’étude du secteur de l’hippodrome romain du site archéologique d’el-Bass à Tyr (Liban sud). Six monuments et structures archéologiques sont concernés : la route antique, l’arc monumental, l’aqueduc, l’hippodrome et les deux bains de factions qui lui sont associés. Une description détaillée du site et de son cadre archéologique, géographique et historique sera suivie d’une étude approfondie de chacun des monuments. Cette étude couvrira leurs divers aspects archéologiques, architecturaux, typologiques ainsi que les divers remaniements qu’ils subirent. L’ensemble sera accompagné de plusieurs approches comparatives avec des monuments contemporains similaires. Cette étude sera complétée par une analyse urbaine du site, qui traitera de la disposition des monuments les uns par rapport aux autres ainsi que par une étude chronologique qui présentera les diverses phases de son évolution, son développement et son abandon. / This thesis has for object the survey of the sector of the Roman hippodrome of the archaeological site of el-Bass in Tyre (South Lebanon). Six monuments and archaeological structures are concerned: the ancient road, the monumental arch, the aqueduct, the hippodrome and the two faction baths that are associated to it. A detailed description of the site and its archaeological, geographical and historic setting will be followed by a deepened survey of each of the monuments. This survey will cover their various archaeological, architectural, typological aspects as well as the various overhauls that they underwent. The whole will be accompanied by several comparative approaches with similar contemporary monuments. This survey will be completed by an urban analysis of the site, which will be about the disposition of the monuments as well as by a chronological survey that will present the various phases of its evolution, its development and its abandonment.
19

Paléoenvironnements littoraux du Liban à l'Holocène<br />Géoarchéologie des ports antiques de Beyrouth, Sidon et Tyr <br />5000 ans d'interactions nature-culture

Marriner, Nick 23 March 2007 (has links) (PDF)
Cette thèse de géomorphologie présente les résultats de 5000 ans d'anthropisation de l'environnement littoral à Beyrouth, Sidon et Tyr (Liban). Ces trois sites archéologiques furent fondés dans un environnement de plages de poche facilement défendables et accessibles durant l'Age du Bronze. Vers la fin de l'Age du Bronze et le début de l'Age du Fer, des échanges commerciaux en expansion, alliés à des améliorations dans la construction navale, entraînèrent une modification artificielle des mouillages naturels. Bien que les curages romains et byzantins aient créé le paradoxe de port phénicien sans archive sédimentaire, quelques dépôts de décantation à Sidon et à Tyr témoignent encore aujourd'hui d'infrastructures portuaires sophistiquées dès l'Age du Fer. Nous avons reconstitué des changements significatifs dans la topographie spatiale des trois ports pendant la période romaine. En effet, de nombreuses inversions chronologiques ainsi que des hiatus sédimentaires, sont la conséquence de dragages importants. Les bassins romains de Beyrouth, Sidon et Tyr sont caractérisés par des sables fins limoneux et une faune marine lagunaire. La période byzantine correspond à l'apogée des trois ports, comprenant des vases plastiques avec des faunes lagunaire et marine. Le déclin relatif des trois sites est daté du VIe au VIIIe siècles après J.-C. Nous attribuons ce phénomène à trois dynamiques complémentaires : (1) historique, notamment une rétraction de l'empire byzantin sur son noyau anatolien ; (2) des changements rapides du niveau de la mer d'origine néotectonique ; et (3) la destruction partielle des bassins par des tsunami.<br /><br />A Tyr, nous avons élaboré un modèle géomorphologique d'accrétion du tombolo. Les archives sédimentaires littorales attestent de forçages d'origine naturelle et anthropique. (1) En amont du brise-lames naturel constitué de l'ancienne île de Tyr, la Surface d' Inondation Maximale est datée vers 7500 ans BP. Des faciès limoneux et une faune marine traduisent un milieu sédimentaire de basse énergie. Cette zone a été abritée de la houle du sud-ouest par un récif gréseux d'environ 6 km de long. (2) Après 6000 ans BP, la stabilisation du niveau de la mer, couplée à des flux sédimentaires importants, a engendré l'accrétion de fonds sableux. Cette dynamique a abouti à la formation d'un proto-tombolo, 1 à 2 m sous le niveau de la mer à l'époque d'Alexandre le Grand (IVe siècle av. J.-C.). (3) Après 332 av. J.-C., la construction de la chaussée hellénistique a entraîné une segmentation irréversible du littoral Tyrien.
20

Tyr : En vetenskapshistorisk och komparativ studie av föreställningar och gestaltningar kopplade till den fornnordiske guden Tyr

af Edholm, Klas January 2014 (has links)
Tyr – A historical and comparative study of configurations and formations connected to the Old Norse god Tyr. Klas af Edholm   This thesis has two aims. One is a discussion of the history of the study of Old Norse religion and related aspects, centered on how general tendencies within the area of research have affected the interpretations of the god *Tīwaz/Tyr. Thereby, it treats a selection of influential trends of interpretation, and a selection of prominent scholars of the field. The second aim is an empirical and comparative analysis of the Old Norse source material and, to some degree, the continental Germanic, the Baltic, and the other Indo-European material. Tyr has been interpreted according to trends of research in the field; the mythological character has been used as a projection screen of the theories. Already from the beginning, Tyr was interpreted as a sky god; connected to this was the conception of an original high god. The interpretations of Tyr as a sun god, sky god, and/or law god are close related to this high god conception. These interpretations of the god Tyr has built their arguments upon the etymological connection to Indo-European words for ‘heaven, celestial’ and ‘god’, but they have not taken enough consideration of the Old Norse sources. Georges Dumézil interpreted Tyr, according to his système tripartite, as a law god. This understanding of the god has been widely adopted, but cannot be confirmed; the Old Norse material only speaks of Tyr as a war god. The comparative Indo-European etymological material indicates that his function as sky god is archaic, while the martial traits shared with the continental Germanic and Celtic counterparts prove that this characteristic must have evolved early. Tyr (or rather his predecessor *Tīwaz) lost his celestial traits and became an unmitigated war god, and as such we perceive him in the Old Norse religion.

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