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Turner syndrome and its relation with X chromosome inactivation
Kašíková, Lenka ; Schierová, Michaela (advisor) ; Král, Jiří (referee)
Turner syndrome (TS) is a genetic anomaly occurring in women with worldwide frequency 1:2,000. Turner syndrome's possible causes include X chromosome monosomy, mosaic karyotype (45,X/46,XX; 45,X/46,XY; 45,X/47,XXX), X isochromosome (46,X,i(Xq)), ring X chromosome (45,X/46,X,r(X)), and other X chromosome aberrations (deletion and translocation). Patients with Turner syndrome (with the exception of ring chromosome abnormalities) aren't diagnosed with mental retardation. Turner syndrome is closely related to the regulation of gene expression level, particularly with X chromosome inactivation. Genes escaping the X chromosome inactivation process in 45,X women are expressed in half the dose of a healthy woman. An example of such a gene is SHOX, which I decided to focuse on in this thesis. SHOX gene haploinsufficiency causes major Turner syndrome phenotype manifesting of short body and bone abnormalities. The research of other genes with possible roles in Turner syndrome is complicated by the absence of adequate model organism, which could be used for TS study with possibility to extrapolate the results to humans. In mice, both the inactivation process itself is different and the phenotypic manifestation of X monosomy (39, X) is also much milder than in 45,X women. This difference could be explained by...
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Characterization of the Hstx1 and Hstx2 hybrid sterility candidate genes
Kašíková, Lenka ; Jansa, Petr (advisor) ; Rothová, Olga (referee)
Speciation, the formation of new species, is an essential evolutionary process that causes species diversity on the Earth. At the beginning of this process is the separation of two populations by a reproductive barrier that prevents gene flow between these populations. One of the mechanisms, which enable reproductive isolation, is hybrid sterility (HS). It is a mechanism of postzygotic isolation that is described in a number of eukaryotes. The first discovered gene of hybrid sterility in vertebrates is the mice gene Hst1, later identified as gene Prdm9. By genetic and molecular analysis the locus on the X chromosome was determined, whose interaction with Prdm9 causes sterility or reduced fitness in male hybrids. This locus contains two genetic factors: Hstx1, causing an abnormal morphology of spermatozoa, and Hstx2, causing an arrest in spermatogenesis in pachytene spermatocytes and sterility. In my thesis I focus on the effect of deletion of a candidate hybrid sterility gene Fmr1nb on the X chromosome. The analysis of males B6N.Fmr1nbmut with deletion variants of the Fmr1nb gene showed that Fmr1nb is one of the factors influencing spermatogenesis. An increase in morphologic abnormalities in spermatozoa occurred in males with Fmr1nb gene deletion. This phenotype is identical with Hstx1. The effect...
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Characterization of the Hstx1 and Hstx2 hybrid sterility candidate genes
Kašíková, Lenka ; Jansa, Petr (advisor) ; Rothová, Olga (referee)
Speciation, the formation of new species, is an essential evolutionary process that causes species diversity on the Earth. At the beginning of this process is the separation of two populations by a reproductive barrier that prevents gene flow between these populations. One of the mechanisms, which enable reproductive isolation, is hybrid sterility (HS). It is a mechanism of postzygotic isolation that is described in a number of eukaryotes. The first discovered gene of hybrid sterility in vertebrates is the mice gene Hst1, later identified as gene Prdm9. By genetic and molecular analysis the locus on the X chromosome was determined, whose interaction with Prdm9 causes sterility or reduced fitness in male hybrids. This locus contains two genetic factors: Hstx1, causing an abnormal morphology of spermatozoa, and Hstx2, causing an arrest in spermatogenesis in pachytene spermatocytes and sterility. In my thesis I focus on the effect of deletion of a candidate hybrid sterility gene Fmr1nb on the X chromosome. The analysis of males B6N.Fmr1nbmut with deletion variants of the Fmr1nb gene showed that Fmr1nb is one of the factors influencing spermatogenesis. An increase in morphologic abnormalities in spermatozoa occurred in males with Fmr1nb gene deletion. This phenotype is identical with Hstx1. The effect...
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Turner syndrome and its relation with X chromosome inactivation
Kašíková, Lenka ; Schierová, Michaela (advisor) ; Král, Jiří (referee)
Turner syndrome (TS) is a genetic anomaly occurring in women with worldwide frequency 1:2,000. Turner syndrome's possible causes include X chromosome monosomy, mosaic karyotype (45,X/46,XX; 45,X/46,XY; 45,X/47,XXX), X isochromosome (46,X,i(Xq)), ring X chromosome (45,X/46,X,r(X)), and other X chromosome aberrations (deletion and translocation). Patients with Turner syndrome (with the exception of ring chromosome abnormalities) aren't diagnosed with mental retardation. Turner syndrome is closely related to the regulation of gene expression level, particularly with X chromosome inactivation. Genes escaping the X chromosome inactivation process in 45,X women are expressed in half the dose of a healthy woman. An example of such a gene is SHOX, which I decided to focuse on in this thesis. SHOX gene haploinsufficiency causes major Turner syndrome phenotype manifesting of short body and bone abnormalities. The research of other genes with possible roles in Turner syndrome is complicated by the absence of adequate model organism, which could be used for TS study with possibility to extrapolate the results to humans. In mice, both the inactivation process itself is different and the phenotypic manifestation of X monosomy (39, X) is also much milder than in 45,X women. This difference could be explained by...
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