Add to ORKGThe preimplantation mammalian embryo offers a striking opportunity to address the question of how and why apparently identical cells take on separate fates. Two cell fate decisions are taken before the embryo implants; these decisions set apart a group of pluripotent cells, progenitors for the future body, from the distinct extraembryonic lineages of trophectoderm and primitive endoderm. New molecular, cellular and developmental insights reveal the interplay of transcriptional regulation, epigenetic modifications, cell position and cell polarity in these two fate decisions in the mouse. We discuss how mechanisms proposed in previously distinct models might work in concert to progressively reinforce cell fate decisions through feedback loops
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...
Intracellular transcriptional regulators and extracellular signaling pathways together regulate the ...
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...
Early development of the mouse comprises a sequence of cell fate decisions in which cells are guided...
Early embryogenesis is characterized by the segregation of cell lineages that fulfill critical roles...
Development of the early mouse embryo has always been classified as regulative, meaning that when pa...
International audienceDuring early development, the mammalian embryo undergoes a series of profound ...
In the mouse embryo, the first differences between cells that result in distinct lineages have long ...
International audienceIt is generally assumed that the developmental program of embryogenesis relies...
The temporal and spatial segregation of the two extra-embryonic cell lineages, trophectoderm and pri...
Mammalian embryo development is characterized by regulative mechanisms of lineage segregation and ce...
International audienceDuring mouse preimplantation embryo development, totipotent blastomeres genera...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
The separation of inner cell mass and trophectoderm is the first cell fate specification event in ma...
Specification of cell fate in the early mouse embryo involves the generation of heterogeneities betw...
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...
Intracellular transcriptional regulators and extracellular signaling pathways together regulate the ...
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...
Early development of the mouse comprises a sequence of cell fate decisions in which cells are guided...
Early embryogenesis is characterized by the segregation of cell lineages that fulfill critical roles...
Development of the early mouse embryo has always been classified as regulative, meaning that when pa...
International audienceDuring early development, the mammalian embryo undergoes a series of profound ...
In the mouse embryo, the first differences between cells that result in distinct lineages have long ...
International audienceIt is generally assumed that the developmental program of embryogenesis relies...
The temporal and spatial segregation of the two extra-embryonic cell lineages, trophectoderm and pri...
Mammalian embryo development is characterized by regulative mechanisms of lineage segregation and ce...
International audienceDuring mouse preimplantation embryo development, totipotent blastomeres genera...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
The separation of inner cell mass and trophectoderm is the first cell fate specification event in ma...
Specification of cell fate in the early mouse embryo involves the generation of heterogeneities betw...
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...
Intracellular transcriptional regulators and extracellular signaling pathways together regulate the ...
Early mammalian embryo is a paradigm of dynamic, self-organised process. It involves gene expression...