2021
Self-renewal in induced pluripotent stem cells
BÁRTA, Tomáš, Dáša BOHAČIAKOVÁ a Lukáš ČAJÁNEKZákladní údaje
Originální název
Self-renewal in induced pluripotent stem cells
Název anglicky
Self-renewal in induced pluripotent stem cells
Autoři
Vydání
Recent Advances in iPSC Technology, od s. 179-207, 28 s. 2021
Další údaje
Typ výsledku
Kapitola resp. kapitoly v odborné knize
Utajení
není předmětem státního či obchodního tajemství
Odkazy
ISBN
978-0-12-822231-7
Klíčová slova anglicky
Cell cycle; Checkpoint; Differentiation; Growth factor; Noncoding RNA; Pluripotency; Proliferation; Reprogramming; Self-renewal; Signaling; Stem cell; Telomereses
Příznaky
Mezinárodní význam
Změněno: 17. 2. 2022 14:40, Ing. Nicole Ludikovská
V originále
Human induced pluripotent stem cells (hiPSCs) hold great promise in the fields of regenerative medicine and disease modeling. In order to fully exploit the regenerative potential of hiPSCs through efficient, safe, and cost-effective production and maintenance of these cells, it is vital to have a firm understanding of the molecular processes responsible for their unique properties. hiPSCs rely on mechanisms similar to those in human embryonic stem cells to maintain their pluripotency and to control their differentiation (Vallier et al., 2009). In this chapter, we thoroughly discuss the current understanding of the key players and principles orchestrating effective self-renewal of hiPSCs, namely the mechanisms and consequences of cell cycle regulation and the role of growth factors, noncoding RNAs, and telomeres.
Anglicky
Human induced pluripotent stem cells (hiPSCs) hold great promise in the fields of regenerative medicine and disease modeling. In order to fully exploit the regenerative potential of hiPSCs through efficient, safe, and cost-effective production and maintenance of these cells, it is vital to have a firm understanding of the molecular processes responsible for their unique properties. hiPSCs rely on mechanisms similar to those in human embryonic stem cells to maintain their pluripotency and to control their differentiation (Vallier et al., 2009). In this chapter, we thoroughly discuss the current understanding of the key players and principles orchestrating effective self-renewal of hiPSCs, namely the mechanisms and consequences of cell cycle regulation and the role of growth factors, noncoding RNAs, and telomeres.