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Hormonal control of sexual size dimorphism in vertebrates
Tureček, Adam ; Kratochvíl, Lukáš (advisor) ; Frýdlová, Petra (referee)
Males and females of one species share the majority of the genome, often also the joint niche, but their phenotype is usually very different. The biggest difference between the sexes is the achievement of different sizes that can be controlled dimorphic secretion of hormones. Although many researches have been conducted on this topic, we still lack the knowledge that at least in vertebrates exists in this respect a single, common proximate mechanism or whether different types or lines vary considerably in hormonal control of dimorphism in body size. Growth is influenced by a variety of hormones that can interact - for example, growth hormone, somatomedins, thyroid hormones and steroid hormones. However, experimental studies have suggested that influence levels of sex steroid hormones can cause a change in sexual dimorphism in size. My work focuses on summarizing knowledge about hormonal influence dimorphic growth in vertebrates and analyse the methodology used. Powered by TCPDF (www.tcpdf.org)
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The effect of steroid hormones on sexually dimorphic bone growth in geckos
Tureček, Adam ; Kubička, Lukáš (advisor) ; Frýdlová, Petra (referee)
The sexual size dimorphism (SSD) is widespread among animals but proximate mechanisms of its ontogeny are still poorly understood even in important groups of vertebrates such as reptiles. Previous experiments in geckos showed that growth of both sexes slows substantially at their older age. Their SSD develops considerably a long time after sexual maturity, it is associated with earlier growth deceleration in the smaller sex and it is controlled by ovarian rather than testicular steroids. The aim of the thesis was to explore the previous knowledge by studying the ontogenesis of the sexually-dimorphic bone growth of the gecko Paroedura picta, the male- larger species with the most explored proximate mechanisms of SSD among geckos. I was most interested in the ontogeny of the growth plates activity and the epiphyseal ossification of the femur in both sexes and their relationship to age, body length, gonadal activity and levels of sex-specific steroids (estradiol and testosterone). The results show that P. picta has determinate growth and that epiphyseal ossification does not contribute to the SSD. The femoral growth plates close at the same age in both sexes; however, their closure occurs at smaller body length in females than in males. In the context of this and the previous studies, estradiol or other...
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Hormonal control of sexual size dimorphism in vertebrates
Tureček, Adam ; Kratochvíl, Lukáš (advisor) ; Frýdlová, Petra (referee)
Males and females of one species share the majority of the genome, often also the joint niche, but their phenotype is usually very different. The biggest difference between the sexes is the achievement of different sizes that can be controlled dimorphic secretion of hormones. Although many researches have been conducted on this topic, we still lack the knowledge that at least in vertebrates exists in this respect a single, common proximate mechanism or whether different types or lines vary considerably in hormonal control of dimorphism in body size. Growth is influenced by a variety of hormones that can interact - for example, growth hormone, somatomedins, thyroid hormones and steroid hormones. However, experimental studies have suggested that influence levels of sex steroid hormones can cause a change in sexual dimorphism in size. My work focuses on summarizing knowledge about hormonal influence dimorphic growth in vertebrates and analyse the methodology used. Powered by TCPDF (www.tcpdf.org)
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