• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 14
  • 4
  • 3
  • 3
  • 1
  • 1
  • Tagged with
  • 33
  • 33
  • 11
  • 7
  • 7
  • 7
  • 6
  • 4
  • 4
  • 4
  • 4
  • 4
  • 4
  • 4
  • 3
  • 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.
31

Karyotypová evoluce afrických linií sklípkanů čeledi Theraphosidae / Karyotype evolution of African clades of theraphosid mygalomorphs

Košátko, Prokop January 2019 (has links)
Karyotypes of mygalomorph spiders are not satisfactorily known. This thesis is focused on the basic cytogenetic analysis of selected species of African clades of theraphosid mygalomorphs. It includes four subfamilies: Eumenophorinae, Harpactirinae, Ischnocolinae and Stromatopelminae. Diploid numbers, chromosome morphology, sex chromosome systems and chromosome behaviour in male germline in the selected species of African theraphosid subfamilies were studied. The findings support published results, that refer of high karyotype diversity in Theraphosidae. Diploid chromosome number reduction is probably a basic trend of theraphosid karyotype evolution. The majority of analysed species exhibited one, two or three sex chromosomes. In some species neo-sex chromosome systems were found. In some species one or two sex chromosome pairs (SCP), composed of chromosomes which lack morphological differentiation were detected. Nucleolus organizer regions were detected by fluorescent in situ hybridization in several species. Constitutive heterochromatin detection was performed by C-banding in two species. Keywords: constitutive heterochromatin, diploid number, karyotype, fluorescence in situ hybridization, Mygalomorphae, nucleolus organizer region, SCP, sex chromosome, spider, Theraphosidae
32

Charakterizace genového obsahu chromosomu Z u ptáků. / Characterization of Z chromosome gene content in birds

Mořkovský, Libor January 2010 (has links)
Theory predicts that sexually antagonistic mutations will be over- or under-represented on the X and Z chromosomes, depending on the average dominance coefficient of the mutations. However, as little is known about the dominance coefficients for new mutations, the effect of sexually antagonistic selection is difficult to predict. To elucidate the role of sexually antagonistic selection in the evolution of Z chromosome gene content in chicken, we analyzed publicly available microarray data from several somatic tissues as well as somatic and germ cells of the ovary. We found that the Z chromosome is enriched for genes showing preferential expression in ovarian somatic cells, but not for genes with preferential expression in primary oocytes or non-sex-specific somatic tissues. Our results suggest that sexual antagonism leads to higher abundance of female-benefit alleles on the Z chromosome. No bias towards Z-linkage of oocyte-enriched genes can be explained by lower intensity of sexually antagonistic selection in ovarian germ cells compared to ovarian somatic cells. An alternative explanation would be that meiotic Z chromosome inactivation hinders accumulation of oocyte-expressed genes on the Z chromosome. Our results are consistent with findings in mammals and indicate that recessive rather than dominant...
33

Etude des bases moléculaires du déterminisme sexuel et de la différenciation chez une espèce hétérogamétique femelle ZZ-ZW : Schistosoma mansoni / Molecular basis of sex determination and differentiation of a female heterogametic species ZZ/ZW : Schistosoma mansoni

Picard, Marion 01 December 2015 (has links)
Parmi plus de 20000 espèces de trématodes hermaphrodites, les Schistosomatidae ont un statut particulier car ils sont gonochoriques (i.e. deux sexes séparés). Le gonochorisme chez ces espèces, et leur dimorphisme sexuel, seraient en fait une stratégie d’adaptation à leur habitat : le système veineux des vertébrés à sang chaud, dont l’Homme. Malgré un mode chromosomique de déterminisme du sexe (i.e. hétérogamétie femelle ZW), les individus mâles et femelles demeurent phénotypiquement identiques durant tous les stades larvaires de leur cycle de vie hétéroxène. La différenciation sexuelle n’a lieu qu’après l’infestation de leur hôte définitif. Dans ce travail, nous nous sommes intéressés aux facteurs moléculaires déclenchant cette différenciation chez Schistosoma mansoni. Nous avons établi le profil d’expression sexe-dépendant de gènes conservés de la cascade de détermination/différenciation chez les animaux : les DMRT (Double-sex and Male-abnormal-3 Related Transcription Factors). Nous avons par ailleurs généré un transcriptome comparatif mâle/femelle (RNA-seq) sur 5 stades de développement in vivo, dont 3 stades « schistosomules » inédits. Cela nous a permis d’identifier de potentiels gènes « clés » de la différenciation sexuelle et de souligner l’importance de l’interaction hôte-parasite. Enfin, par la combinaison de cette approche transcriptomique et d’une analyse épigénomique (ChIP-seq), nous avons montré une dynamique de la compensation de dose génique au cours du cycle de vie chez les femelles ainsi que la mise en place d’une stratégie transcriptionnelle particulière chez les mâles, optimisant leur développement dans l’hôte et ainsi, leur succès reproducteur. / Parasitic flatworms include more than 20.000 species that are mainly hermaphrodites. Among them, the hundred species of Schistosomatidae are intriguing because they are gonochoric. The acquisition of gonochorism in these species is supposed to provide genetic and functional advantages to adapt to their hosts: warm-blooded animals. Sex of schistosomes is genetically determined at the time of fertilization (i.e. ZW female heterogametic system). However, there is no phenotypic dimorphism through all the larval stages of its complex lifecycle: sexual dimorphism appears only in the definitive host. The molecular mechanisms triggering this late sexual differentiation remain unclear, and this is precisely the topic of our present work. We performed transcriptomic (RNA-Sequencing and quantitative-PCRs) and structural (ChIP-Sequencing) analyses at different stages of Schistosoma mansoni development. Here, we present data suggesting that the sexual differentiation relies on a combination of genetic and epigenetic factors. In a genetic point of view, we show a sex-associated expression of the DMRT genes (Double-sex and Mab-3 Related Transcription Factors) that are known to be involved in sex determination/differentiation through all the animal kingdom. In addition, we propose new potential sex-determining key genes and a pivotal role of host-pathogen interaction at the time of development. In a structural point of view, we highlight a dynamic status of dosage compensation in females and chromatin modifications in males. This intense remodeling reveals a specific transcriptomic strategy which optimizes male development and beyond that, schistosomes reproductive success.

Page generated in 0.0771 seconds