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Role of Nkx2.5 in development and electrophysiology of the mouse heart
Hámor, Peter ; Sedmera, David (advisor) ; Neckář, Jan (referee)
Role of Nkx2.5 in development and electrophysiology of the mouse heart Prague 2016 Peter Hámor, B.S. ABSTRACT The objective of this thesis is to investigate the role of Nkx2.5 gene dosage on electrophysiology of the mouse heart in prenatal stage of its development. The main goal of this work is to search for differences in conduction of electric impulses through the embryonic mouse hearts of different genotype. Special method of capturing the conduction of electric impulse through myocardium, called optical mapping, was used to visualize the electrical activity. Thanks to this method I was able to construct images and videos capturing the spread of the impulse with identification of the beginning of the activation and its direction in the heart. These outputs, or optical maps, help to define anomalies and defects in mutants compared with a normal functioning heart. The thesis focuses on the expression of the transcription factor Nkx2.5 and regulatory components related with the correct formation and physiology of the heart until 9.5 days post coitum. Embryos at this developmental stage were optically mapped and analysed according to their genotype. While the wild type and heterozygote mouse embryos exhibited high degree of similarity, the homozygous mutants were dramatically different. Considering this work...
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Role of Nkx2.5 in development and electrophysiology of the mouse heart
Hámor, Peter ; Sedmera, David (advisor) ; Neckář, Jan (referee)
Role of Nkx2.5 in development and electrophysiology of the mouse heart Prague 2016 Peter Hámor, B.S. ABSTRACT The objective of this thesis is to investigate the role of Nkx2.5 gene dosage on electrophysiology of the mouse heart in prenatal stage of its development. The main goal of this work is to search for differences in conduction of electric impulses through the embryonic mouse hearts of different genotype. Special method of capturing the conduction of electric impulse through myocardium, called optical mapping, was used to visualize the electrical activity. Thanks to this method I was able to construct images and videos capturing the spread of the impulse with identification of the beginning of the activation and its direction in the heart. These outputs, or optical maps, help to define anomalies and defects in mutants compared with a normal functioning heart. The thesis focuses on the expression of the transcription factor Nkx2.5 and regulatory components related with the correct formation and physiology of the heart until 9.5 days post coitum. Embryos at this developmental stage were optically mapped and analysed according to their genotype. While the wild type and heterozygote mouse embryos exhibited high degree of similarity, the homozygous mutants were dramatically different. Considering this work...
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Role of Nkx2.5 on development and electrophysiology of the mouse heart
Hámor, Peter ; Sedmera, David (advisor) ; Neckář, Jan (referee)
Role of Nkx2.5 on development and electrophysiology of the mouse heart Prague 2015 Bc. Peter Hámor ABSTRACT The objective of this thesis is to investigate the role of Nkx2.5 gene dosage on electrophysiology of the mouse heart in prenatal stage of its development, in which the physiological functions of the heart fail to function properly. The main goal of this work is to search for differences in conduction of electric impulses through the embryonic mouse heart according to their genotype. Special method of capturing the conduction of electric impulse through myocardium was used for this purpose, called optical mapping. Thanks to this method I was able to construct images and videos capturing transition of the impulse with marked beginning of the activation and its direction in the heart. These outputs, or optical maps, help to define anomalies and defects compared with a normal functioning heart. The thesis focuses on the expression of the transcription factor Nkx2.5 and regulatory components related with the correct formation and physiology of the heart until 9.5 days post coitum. Individuals in this developmental stage were optically mapped and compared according to their genotypes - homozygous non-mutant, heterozygote and homozygous mutant mouse embryos exhibited some degree of similarity, while other...
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Targeted differentiation of mesenchymal stem cells and their clinical application
Hámor, Peter ; Kubinová, Šárka (advisor) ; Trošan, Peter (referee)
The goal of this work is to point out possibilities of neuronal differentiation of mesenchymal stem cells and their application for clinical purposes, primary for repairing and regeneration of central nervous system tissues. Because this system works as a control center for functional features of the whole body, and treating this injuries and degenerations often bring many problems and obstacles, the possibility of using autologous cells for a transplantation or inducer of the natural regenerative properties of tissues is worth deeper research. This work progressively focuses on basic characteristics of stem cells and their differentiation potential, characterizing further mesenchymal stem cells together with possibilities of their isolation and cultivation. The main part of the text is formed by studies and methods used for targeted differentiation of mesenchymal stem cells and attempts of their transdifferentiation into neural cell line, together with present and possible future application of these cells in central nervous system therapies.
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