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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Gonad deformations in whitefish (Coregonus spp.) from Lake Thun, Switzerland : a population genetic and transcriptomic approach /

Bittner, David. January 2009 (has links)
Diss. Naturwiss. Bern. / Enthält versch. Sonderdr. Literaturverz.
2

Estrogen related alterations of gonad development and of reproduction in the zebrafish, Danio rerio, Ham. Buc. /

Maack, Gerd. January 2002 (has links)
Zugl.: Halle, Wittenberg, University, Diss., 2002.
3

Molecular analysis of gonad development in medaka (Oryzias latipes) and Oryzias celebensis / Molekulare Analyse der Gonadenentwicklung im Medaka (Oryzias latipes) und Oryzias celebensis

Klüver, Nils January 2007 (has links) (PDF)
The process of sex-determination can be better understood through examinations of developing organs and cells, which are involved in the formation of undifferentiated gonad. This mechanisms show in fish a broad variety, ranging from hermaphroditism to gonochorism and environmental to genetic sex determination. Hormones and abiotic factors such as temperature and pH can influence teleost development and reproductive traits. These factors are vulnerable to pollutants and climate changes. Therefore, it is important to examine gonad development and sex-determination/differentiation in teleost fish. Teleost fish are the largest known group of vertebrates with approximately 25,000 species and are used for such kind of examinations as model organisms. Recently, in Oryzias latipes (medaka), dmrt1bY (or dmy), a member of the Dmrt gene family, has been described as testis-determining gene. However, this gene is not the universal master sex-determining gene in teleost fish. Although dmrt1bY is present in the most closely related species of the genus, namely Oryzias curvinotous, it is absent from other Oryzias species, like Oryzias celebensis, and other fish. During my thesis, I studied gonad development in medaka and in the closely related species Oryzias celebensis. Germ cell specification in medaka seems to be dependent on maternally provided cytoplasmatic determinants, so called germ plasm. Nanos and vasa are such germ cell specific genes. In zebrafish they are asymmetrically localized in the early embryo. I have shown that nanos mRNA is evenly distributed in the early embryo of medaka. A similar pattern has been already described for the medaka vasa homolog, olvas. This suggests differences in PGC specification in zebrafish and medaka. Further, the vasa homolog was isolated and the expression pattern examined in O. celebensis. The results show that it can be used as a germ cell specific marker. Additionally, the primordial germ cell migration in O. celebensis was followed, which is similar to medaka PGC migration. Primordial germ cell migration in vertebrates is dependent on the chemokine stromal cell-derived factor 1 (Sdf-1). Medaka has two different sdf-1 genes, sdf-1a and sdf-1b. Both genes are expressed in the lateral plate mesoderm (LPM). During late embryonic development, I could show that sdf-1a is expressed in newly formed somites and not longer in the LPM. Sdf-1b expression persisted in the posterior part of the lateral plate mesoderm in the developing gonad. In terms of early and late functions, this suggests subfunctionalization of sdf-1a and sdf-1b. In “higher” vertebrates, genes that are involved in the process of gonad development have been studied in detail, e.g. Wt1, Sox9, and Amh. I have analyzed the expression pattern of wt1 and sox9 co-orthologs and amh. In both, the medaka and O. celebensis, wt1a transcripts were localized in the LPM and its expression was similar to sdf-1a gene expression in medaka. Wt1b expression was restricted to the developing pronephric region. During later embryonic development, wt1a is specifically expressed in the somatic cells of the gonad primordium in both sexes. This is the first time that in fish wt1 gene expression in developing gonads has been described. Therefore, this result suggests that wt1a is involved in the formation of the bipotential gonad. Furthermore, I have analyzed the gonad specific function of the wt1 co-orthologs in medaka. I could show that a conditional co-regulation mechanism between Wt1a and Wt1b ensures PGC maintenance and/or survival. The expression of sox9 genes in medaka and sox9b in O. celebensis were detected in the somatic cells of the gonad primordium of both sexes. Additionally, I have shown that amh and amhrII in medaka are expressed in somatic cells of the gonad primordium of both sexes. This suggests that sox9b, amh and amhrII are involved in gonad development and have specific functions in the adult gonad. In O. celebensis I could detect an expression of dmrt1 already six days after fertilization in half of the embryos, which is similar to the dmrt1bY expression in medaka. Whether the expression of dmrt1 is male specific in O. celebensis is currently under investigation. Altogether, the obtained results provide new insights into gene expression patterns during the processes of gonad development. Furthermore, no differences in the expression pattern of wt1a and sox9b during gonad development between the medaka and O. celebensis could be detected. This might indicate that the genetic mechanisms during gonad development are similar in both species. / Die Untersuchung der Keimzellwanderung in O. celebensis zeigte hohe Ähnlichkeiten zu der bereits Beschriebenen im Medaka. Die Keimzellwanderung in Wirbeltieren ist abhängig von stromal cell-derived factor 1 (Sdf-1), einem chemotaktisch wirkendem Zytokinin. Im Medaka existieren zwei sdf-1 Gene, sdf-1a und sdf-1b, die während der embryonalen Entwicklung im Seitenplattenmesoderm (LPM) exprimiert werden. Die Expression der beiden Gene unterscheiden sich jedoch zeitlich und auch örtlich im LPM. Dies lässt vermuten, dass sich im Verlauf der Evolution eine frühe und eine späte keimzellspezifische Funktion zwischen sdf-1a und sdf-1b aufgeteilt hat. In „höheren“ Wirbeltieren wurden schon verschiedene Gene, z.B. Wt1, Sox9 und Amh, in dem Prozess der Gonadenentwicklung beschrieben. Die Expressionsmuster von wt1 und sox9 Co-Orthologen und amh habe ich während meiner Arbeit untersucht. Im Medaka und in O. celebensis wird wt1a im LPM transkribiert und ähnelt der von sdf-1a im Medaka. Die Expression von wt1b erfolgt hingegen nur in der Region der Vorläufer-Niere. Im weiteren Verlauf der Embryogenese ließen sich wt1a Transkripte erstmalig in somatischen Zellen des Gonaden-Vorläufers nachweisen. Wt1a spielt vermutlich eine Rolle in der Entwicklung der bipotentialen Gonade. Die funktionelle Analyse von wt1 Genen im Medaka zeigte, dass durch eine konditionale Co-Regulation zwischen wt1a und wt1b die Keimzellen überleben bzw. erhalten bleiben. Die Expression von sox9b im Medaka und in O. celebensis ließ sich in somatischen Zellen des Gonaden-Vorläufers nachweisen. Zusätzlich werden amh und amhrII ebenfalls in somatischen Zellen beider Geschlechter exprimiert, daher kann man eine wichtige Rolle dieser Gene während der Gonadenentwicklung und in der adulten Gonade annehmen. Die Expression von dmrt1 in O. celebensis konnte ich, in etwa der Hälfte der beobachteten Embryonen, bereits schon früh in der embryonalen Entwicklung (6 Tage nach der Befruchtung) nachweisen. Das Transkriptionsmuster von dmrt1 in O. celebensis ist ähnlich der Expression von dmrt1bY im Medaka. Inwieweit diese Expression in O. celebensis spezifisch für Männchen ist wird zurzeit noch untersucht. Die erhaltenen Ergebnisse zeigen neue Einblicke in die Genexpressionsmuster der Gonadenentwicklung von Medaka und O. celebensis und weisen neue Möglichkeiten für weitere Forschungen auf. Des Weiteren konnte ich im Verlauf der Gonadenentwicklung keine Unterschiede in der Genexpression von wt1a und sox9b zwischen Medaka und O. celebensis nachweisen. Dies deutet an, dass die genetischen Mechanismen der Gonadenentwicklung zwischen den beiden nahverwandten Arten sehr ähnlich sind.
4

The paracrine IGF-I system and its role in gonad maturation of sterlet, Acipenser ruthenus Linnaeus, 1758

Würtz, Sven-Holger January 2005 (has links)
Zugl.: Berlin, Humboldt-Univ., Diss., 2005
5

Drei neu identifizierte Gene in der Morphogenese von Caenorhabditis elegans: pcp-2, pcp-3 und gon-12 sind sowohl während dem dritten Larvalstadium, als auch im alternativen Dauerlarvenstadium aktiv und regulieren die Entwicklung reproduktiver Organe. / Three newly identified genes in morphogenesis of Caenorhabditis elegans: pcp-2 pcp-3 and gon-12 are active in the third larval stage and in the alternative dauer larval stage to regulate development of reproductive tissues.

Fröde, Stephan 29 January 2003 (has links)
No description available.

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