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Application of novel genomic techniques in studies of pathogenesis of selected rare inherited disorders
Nosková, Lenka ; Kmoch, Stanislav (advisor) ; Sedláček, Zdeněk (referee) ; Živný, Jan (referee)
Rare diseases are a heterogeneous group of disorders. Knowledge of their molecular basis is poor and till recently there were no appropriate methodical approaches due to a limited number of patients. Novel genomic techniques, especially the DNA array technology and the next generation sequencing emerging in last few years, enabled studies of these diseases even in small families and sporadic cases. This PhD thesis focuses on application of novel genomic techniques in studies of rare inherited diseases. It describes a use of DNA array technology in linkage analysis, analysis of differential gene expression, analysis of copy number variations and homozygous mapping, and a use of next generation sequencing technology. Combination of these methods was used for identification of molecular basis of adult neuronal ceroid lipofuscinosis, Rotor syndrome, isolated defect of ATP synthase and mucopolysaccharidosis type IIIC.
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Molecular basis of selected inherited rare diseases
Hartmannová, Hana
Rare diseases represent a clinically and genetically heterogeneous group of diseases affecting various organs and presenting at different ages. Identification and functional characterization of genetic defects causing individual rare diseases represent unique opportunity to understand biological functions of human genes and gene products as well as to basic pathogenetic mechanisms of individual diseases. This knowledge is prerequisite for their effective diagnosis, specific treatment and prevention and it also opens up an avenue for better understanding of complex diseases. My thesis documents basic conceptual and methodological developments of biochemical genetics, functional cloning, genetic mapping, positional cloning, DNA microarrays and genomic sequencing, which have provided a universal framework for effective characterization of the genetic architecture of almost all human diseases. This conceptual and technological developments are demonstrated on several cases of rare genetic diseases - adenylosuccinate lyase deficiency, mucopolysacharidosis type IIIC, Rotor syndrome, deficiency of ATP synthase, neuronal ceroid lipofuscinosis, GAPO syndrome and X -linked restrictive cardiomyopathy, which genetic and molecular basis I have helped to elucidate.
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Molecular basis of selected inherited rare diseases
Hartmannová, Hana
Rare diseases represent a clinically and genetically heterogeneous group of diseases affecting various organs and presenting at different ages. Identification and functional characterization of genetic defects causing individual rare diseases represent unique opportunity to understand biological functions of human genes and gene products as well as to basic pathogenetic mechanisms of individual diseases. This knowledge is prerequisite for their effective diagnosis, specific treatment and prevention and it also opens up an avenue for better understanding of complex diseases. My thesis documents basic conceptual and methodological developments of biochemical genetics, functional cloning, genetic mapping, positional cloning, DNA microarrays and genomic sequencing, which have provided a universal framework for effective characterization of the genetic architecture of almost all human diseases. This conceptual and technological developments are demonstrated on several cases of rare genetic diseases - adenylosuccinate lyase deficiency, mucopolysacharidosis type IIIC, Rotor syndrome, deficiency of ATP synthase, neuronal ceroid lipofuscinosis, GAPO syndrome and X -linked restrictive cardiomyopathy, which genetic and molecular basis I have helped to elucidate.
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Application of novel genomic techniques in studies of pathogenesis of selected rare inherited disorders
Nosková, Lenka ; Kmoch, Stanislav (advisor) ; Sedláček, Zdeněk (referee) ; Živný, Jan (referee)
Rare diseases are a heterogeneous group of disorders. Knowledge of their molecular basis is poor and till recently there were no appropriate methodical approaches due to a limited number of patients. Novel genomic techniques, especially the DNA array technology and the next generation sequencing emerging in last few years, enabled studies of these diseases even in small families and sporadic cases. This PhD thesis focuses on application of novel genomic techniques in studies of rare inherited diseases. It describes a use of DNA array technology in linkage analysis, analysis of differential gene expression, analysis of copy number variations and homozygous mapping, and a use of next generation sequencing technology. Combination of these methods was used for identification of molecular basis of adult neuronal ceroid lipofuscinosis, Rotor syndrome, isolated defect of ATP synthase and mucopolysaccharidosis type IIIC.
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Molecular basis of selected inherited rare diseases
Hartmannová, Hana ; Kmoch, Stanislav (advisor) ; Krebsová, Alice (referee) ; Živný, Jan (referee)
Rare diseases represent a clinically and genetically heterogeneous group of diseases affecting various organs and presenting at different ages. Identification and functional characterization of genetic defects causing individual rare diseases represent unique opportunity to understand biological functions of human genes and gene products as well as to basic pathogenetic mechanisms of individual diseases. This knowledge is prerequisite for their effective diagnosis, specific treatment and prevention and it also opens up an avenue for better understanding of complex diseases. My thesis documents basic conceptual and methodological developments of biochemical genetics, functional cloning, genetic mapping, positional cloning, DNA microarrays and genomic sequencing, which have provided a universal framework for effective characterization of the genetic architecture of almost all human diseases. This conceptual and technological developments are demonstrated on several cases of rare genetic diseases - adenylosuccinate lyase deficiency, mucopolysacharidosis type IIIC, Rotor syndrome, deficiency of ATP synthase, neuronal ceroid lipofuscinosis, GAPO syndrome and X -linked restrictive cardiomyopathy, which genetic and molecular basis I have helped to elucidate.
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