Embryonic stem cells possess fascinating capacity of self-renewal and developmental potential,leading to significant progress in understanding the molecular basis of pluripotency,disease modeling,and reprogramming tec...Embryonic stem cells possess fascinating capacity of self-renewal and developmental potential,leading to significant progress in understanding the molecular basis of pluripotency,disease modeling,and reprogramming technology.Recently,2-cell-like embryonic stem cells(ESCs)and expanded potential stem cells or extended pluripotent stem cells(EPSCs)generated from early-cleavage embryos display some features of totipotent embryos.These cell lines provide valuable in vitro models to study underlying principles of totipotency,cell plasticity,and lineage segregation.In this review,we summarize the current progress in this filed and highlight the application potentials of these cells in the future.展开更多
基金supported by the National Natural Science Foundation of China(31970758)National Key R&D Program of China(2016YFA0102200,2017YFA0103301,2018YFC1004001)。
文摘Embryonic stem cells possess fascinating capacity of self-renewal and developmental potential,leading to significant progress in understanding the molecular basis of pluripotency,disease modeling,and reprogramming technology.Recently,2-cell-like embryonic stem cells(ESCs)and expanded potential stem cells or extended pluripotent stem cells(EPSCs)generated from early-cleavage embryos display some features of totipotent embryos.These cell lines provide valuable in vitro models to study underlying principles of totipotency,cell plasticity,and lineage segregation.In this review,we summarize the current progress in this filed and highlight the application potentials of these cells in the future.
