Global ETD Search

1	Genetic and molecular analysis of C. elegans male development Shen, Michael Milton January 1988 (has links) No description available. 572.8 Sexual dimorphism
2	The characterisation of oestrogen receptors by gel filtration in hormone-sensitive tissues : immature rat uterus, brain and thymus Nunn, Elizabeth de Fourgerolles January 1999 (has links) The aims of this project were to investigate the binding characteristics of the cytosolic oestrogen receptor in the uterus, brain and thymus of immature Wistar rats. The specificities of the receptor in the uterus are well established. The specificities of the cytosolic receptor in the uterus and thymus of immature female Wistar rats were tested against a range of steroids and the values found for the thymus compared with those for the uterus. The concentrations and dissociation constant (Kd) of the cytosolic oestrogen receptor were determined in uterus, brain and thymus of male and female rats at 5,18 and 30 days of age. Clomiphene citrate (CC), an oestrogen antagonist/partial agonist, oestradiol (E2), CC+E2 or 4-hydroxyandrostenedione (4-OHA), an aromatase inhibitor, were administered to animals at 15 days in order to study the effects of these compounds on receptor binding characteristics at 30 days. Significant differences in specificity were found between the thymus and uterus, the cytosolic oestrogen receptor in the thymus exhibited significantly higher affinity for corticosterone than it did in the uterus. Male animals were heavier than females at 30 days. Uterus and thymus weights increased exponentially between 5 and 30 days. The tissue-to-body weight ratio increased in uterus between 18 and 30 days and increased in the thymus in both sexes between 5 and 18 days. In males at 30 days, the tissue-to-body weight ratio of the thymus was significantly lower than in females of the same age. Cytosolic oestrogen receptor concentrations in the uterus, brain and thymus differed between some age and/or sex groups. Cytosolic oestrogen receptor concentrations increased exponentially in the uterus between the different age groups. Cytosolic oestrogen receptor concentrations in both thymus and hypothalamus at 5 days were significantly higher in females than in males of the same age group. No differences in cytosolic oestrogen receptor concentrations were found between the sexes in the cortex at 5 and 18 days but at 30 days, receptors were not detectable in this brain area. The Kd for moxestrol, a synthetic oestrogen agonist that is not bound by alphafetoprotein present in the blood of immature rats, was similar in all tissues. E2 and CC+E'-' treatmentsr esulted in decreasedb ody and thymus weight in both sexes,i ncreased uterus weight and decreased thymus weight in both sexes but led to increased uterus weight. CC treatment decreased the concentration of the receptors in the female thymus only-, E2 and CC+E2 treatments decreased the concentratIon of the receptor to levels that were undetectable in hypothalamus and thymus in both sexes, 4-OHA treatment increased thymus weight and cytosolic receptor concentrations in the hypothalamus and thymus of males only. These results suggest that cytosolic oestrogen receptors in uterus, brain and thymus are similar and that sex differences in these tissues are mediated by differential exposure to oestradiol during the early postnatal period. The thymus is crucial to the development of the immune response. The finding that the cytosolic oestrogen receptor differed from the uterus receptor in its affinity for corticosterone and that sex differences in cytosolic oestrogen receptor concentrations were present in the thymus at 5 days could be relevant to the sex dimorphisms that exist in autoirnmune disease manifestation. 615.1 Autoimmunity; Sexual dimorphism
3	Ecological conditions of secondary sexual dimorphism in salix glauca fundamental and realized dimorphic niche / Dudley, Leah S., January 2006 (has links) Thesis (Ph.D.)--University of Missouri-Columbia, 2006. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file viewed on (February 27, 2007) Vita. Includes bibliographical references. Dimorphism (Plants) Willows
4	The genetics of sexually dimorphic traits implicated in sexual isolation in Drosophila: QTLs and candidate genes / James, Robert Andrew. January 2008 (has links) Thesis (Ph.D.) - University of St Andrews, August 2008. Sexual dimorphism (Animals) Drosophila
5	Natural history and sexual dimorphism of the Eastern hellbender, Cryptobranchus A. Alleganiensis Makowsky, Robert. January 2004 (has links) Thesis (M.S.)--Marshall University, 2004. / Title from document title page. Document formatted into pages; contains viii, 72 p. including illustrations. Includes abstract. Includes bibliographical references (p. 33-37). Salamanders Sexual dimorphism (Animals)
6	Sexual size dimorphism in great-tailed grackles; the costs of sons and daughters. Teather, Kevin L., Carleton University. Dissertation. Biology. January 1988 (has links) Thesis (Ph. D.)--Carleton University, 1988. / Also available in electronic format on the Internet. Grackles. Sexual Dimorphism (Animals)
7	The Landdroskop area in the Hottentots Holland Mountains as a refugium for melanistic lizard species : an analysis for conservation / Costandius, Eloise. January 2005 (has links) Thesis (MSc)--University of Stellenbosch, 2005. / Bibliography. Also available via the Internet. Lizards Sexual dimorphism (Animals)
8	Mating dynamics of South African forest millipedes : Centrobolus (Diplopoda: Pachybolidae) Cooper, Mark Ian January 1998 (has links) Bibliography: pages 128-138. / This study focuses on the mating dynamics of South African forest millipedes Centrobolus (Diplopoda: Spirobolida: Pachybolidae). The main objectives were to investigate the two most common mechanisms of sexual selection, sperm competition and cryptic female choice. The approach was to (1) quantify sexual dimorphism and find the selection pressures operating on the sexes, (2) determine the functional significance of male and female genitalia, (3) understand why there should be a conflict of sexual interests in prolonged copulations, and (4) resolve the mechanisms of sperm competition and cryptic female choice by comparing male mating strategies and sperm precedence to female mating strategies and sperm usage. All hypotheses tested in this thesis are centered on whether there is a conflict of interests between the sexes. Zoology millipedes sexual dimorphism
9	Size- and sex-related aspects of the ecology of the hermit crab Clibanarius digueti Bouvier (Decapoda: Anomura: Diogenidae). Harvey, Alan Wayne. January 1988 (has links) I examine some of the ecological and evolutionary implications of body size in hermit crabs, with special emphasis on the upper intertidal species Clibanarius digueti. In Chapter 1 I show that body size had a far greater effect than species identity on desiccation tolerance for shell-less individuals of C. digueti, Paguristes anahuacus, Pagurus lepidus, and Phimochirus roseus. In contrast with other intertidal taxa, there was no correlation between the upper tidal limit of a species and the expected desiccation tolerance of an average-sized, shell-less individual of that species. This suggests that the gastropod shell that normally houses the hermit crab is sufficient to eliminate desiccation as a community-structuring force in this guild. Clibanarius digueti exhibits strong sexual dimorphism in body size, with almost no overlap in size between adult males and females. In Chapter 2 I show that sexual differences in the intensity of selection on size favor this dimorphism. Specifically, male mating success depended more strongly on body size than did female fecundity. In fact, the rate of increase in fecundity with body size equalled the lowest previously recorded for decapod crustaceans, suggesting that sexual size dimorphism in this species may depend more on weak fecundity selection on females than on strong sexual selection on males. Documenting contemporary selection on a character, however, is not the same as documenting that selection caused the character to evolve. Chapter 3 presents the first empirical test in a single species (C. digueti) of the hypothesis that sexual size dimorphism represents an evolutionary response to sexual differences in selection on size. The test is based on a general model that predicts crab body size as a function of shell limitations, shell fit and body size. Both males and females occupied optimally sized shells of non-preferred species, but the greater the desirability of a shell species, the greater the tendency for males to occupy tighter-fitting shells than females. Males also apparently suffere higher mortality than similarly-sized females. According to the general model, these results agree with the hypothesis that differential selection is causally involved in the evolution of sexual size dimorphism, and contradict the alternative hypothesis that energetic constraints on females produce the dimorphism. Dimorphism (Animals) Sexual dimorphism (Animals)
10	Recherche et caractérisation de gènes exprimés dans les gonades et le cerveau d'Oreochromis niloticus, utilisables comme marqueurs liés au sexe pour la production de populations monosexes mâles par des approches respectueuses de l'environnement / Search and characterisation of genes expressed in the gonads and brain of Oreochromis niloticus to be used as putative sex-linked markers to produce male monosex populations by environmentally-friendly approaches Poonlaphdecha, Srisupaph 15 December 2010 (has links) La connaissance et la maîtrise du déterminisme du sexe et de la différenciation sont des défis majeurs pour la production de tilapia. L'élevage de populations monosexes mâles évite les effets négatifs d'une reproduction continue et profite de la meilleure croissance des mâles. Dans le contexte d'une aquaculture durable, le développement de stratégies alternatives et écologiques est nécessaire pour le contrôle du sexe du tilapia sans avoir recours aux approches hormonales. Ces alternatives reposent sur des approches génétiques ou environnementales, en utilisant l'effet masculinisant des températures élevées appliquées au cours de la différenciation sexuelle. Dans cette thèse la recherche de gènes impliqués dans la différenciation sexuelle a été réalisée dans les gonades et le cerveau en utilisant l'analyse de certains gènes candidats. L'objectif était de développer des marqueurs putatifs pour produire des populations monosexes mâles par des approches respectueuses des consommateurs et de l'environnement. Les expressions temporelles et spatiales de cyp19a1a, cyp19a1b, FOXL2, dmrt1, SOX9, DAX1 et amh ont été analysées dans plusieurs descendances de mâles ou des femelles génétiques ainsi que dans des femelles traitées à fortes températures. Leur lien avec les masculinisations par la températ ure a également été recherché sur des lignées thermosensibles de tilapia. L'un des gènes qui présente un dimorphisme sexuel important est l'amh qui est exprimé aussi bien dans les gonades que dans le cerveau pendant les premiers stades de la différenciation sexuelle. Le niveau d'expression de l'amh dans le cerveau est élevé chez les mâles quand les gonades sont toujours indifférenciées et probablement même avant la synthèse des stéroïdes gonadique. Une procédure de sexage moléculaire précoce a été développée en utilisant ce gène chez le tilapia. Cette procédure sera d'un grand intérêt pour les éleveurs et les scientifiques pour identifier rapidement des individus YY mâles avec un gain en temps et en argent, et pourra être utilisée également pour rechercher d'autres approches fiables de production de populations monosexes mâles sans l'utilisation des hormones. / Knowledge and the control of sex determination and differentiation are major challenges for tilapia production. Farming of male monosex populations avoids the negative effects of a continuous reproduction and benefits from males' fast growth. In the context of a sustainable aquaculture, alternative and ecological strategies have to be developed to control sex in tilapia without hormonal treatment. These approaches will rely on genetic and environmental treatments, such as the use of masculinising high temperatures applied during sex differentiation. The search for genes implicated in sex differentiation has been performed in both gonads and brains using the analysis of candidate genes. The objective was to develop putative markers to produce male monosex populations through consumer and environmentally friendly approaches. Temporal and organ expressions of cyp19a1a, cyp19a1b, foxl2, dmrt1, sox9, dax1 and amh were analysed in several progenies o f genetic males or females as well as in temperature-treated individuals. Their link with temperature masculinisation was also performed on the thermosensitive tilapia lines. One of the sexual dimorphic genes was amh which was found expressed in both gonads and brains during early stages of sex-differentiation. Brain amh was elevated in males when the gonads were still undifferentiated and probably before steroid synthesis took place. A precocious molecular sexing procedure was developed in tilapia using this gene. This procedure will be of great advantage for both farmers and scientists in identifying quickly male individuals and in finding reliable male monosex approaches not using hormones. Température Sexe-dimorphism Sexe-différenciation Temperature Sex-dimorphism Sex-differentiation

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