Thesis (Selection of subject)

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Role genu Nkx2.5 v morfogenezi a elektrofyziologii srdce u myši

Thesis title in thesis language (Slovak):	Role genu Nkx2.5 v morfogenezi a elektrofyziologii srdce u myši
Thesis title in Czech:	Role genu Nkx2.5 v morfogenezi a elektrofyziologii srdce u myši
Thesis title in English:	Role of Nkx2.5 in development and electrophysiology of the mouse heart
Key words:	Nkx2.5, optické mapovanie, myš, embryo, srdce, elektrofyziológia srdca, vývoj srdca, srdcový prevodový systém, dávkovanie génu, transkripčný faktor, vrodené srdcové poruchy
English key words:	Nkx2.5, optical mapping, mouse, embryo, heart, heart electrophysiology, heart development, cardiac conduction system, gene dosage, transcription factor, congenital heart disease
Academic year of topic announcement:	2015/2016
Thesis type:	diploma thesis
Thesis language:	slovenština
Department:	Department of Cell Biology (31-151)
Supervisor:	prof. MUDr. David Sedmera, Ph.D., DSc.
Author:	hidden - assigned by the advisor, waiting for guarantor's approval
Date of registration:	16.11.2015
Date of assignment:	16.11.2015
Date of electronic submission:	01.05.2016
Date of proceeded defence:	01.06.2016
Opponents:	RNDr. Jan Neckář, Ph.D.

Preliminary scope of work

Nkx2.5 homeoboxový gén má dôležitú úlohu v správnom fungovaní a morfologickom vývoji embryonálneho srdca. Optické mapovanie je dobrá metóda hľadania potenciálnych abnormalít v prevodovom systéme embryonálneho srdca, pretože sa skúmané tkanivá správajú podobne ako v stave in vivo. Zbieranie dát touto technikou môže dopomôcť k nájdeniu ďalších rolí génu Nkx2.5 vo vývoji srdca.

Preliminary scope of work in English

2.5 homeobox gene has an important role in proper functional and morphological development of the embryonic heart. Optical mapping is a good method to search for potential abnormalities in conduction system of embryonic heart, as we are studying tissue behaving similarly to its in vivo state. Gathering more data with this technique may help us finding more roles of Nkx2.5 gene in the heart development.