Add to ORKGThe foundations of mammalian development lie in a cluster of embryonic epiblast stem cells. In response to extracellular matrix signalling, these cells undergo epithelialization and create an apical surface in contact with a cavity, a fundamental event for all subsequent development. Concomitantly, epiblast cells transit through distinct pluripotent states, before lineage commitment at gastrulation. These pluripotent states have been characterized at the molecular level5, but their biological importance remains unclear. Here we show that exit from an unrestricted naive pluripotent state is required for epiblast epithelialization and generation of the pro-amniotic cavity in mouse embryos. Embryonic stem cells locked in the naive state are ab...
Pluripotent cells in the mammalian embryo undergo state transitions marked by changes in patterns of...
SummaryThe pluripotent epiblast (EPI) is the founder tissue of almost all somatic cells. EPI and pri...
In the mammalian embryo, epiblast cells must exit the naive state and acquire formative pluripotency...
The foundations of mammalian development lie in a cluster of embryonic epiblast stem cells. In respo...
The foundations of mammalian development lie in a cluster of embryonic epiblast stem cells. In respo...
Abstract: Following implantation, the human embryo undergoes major morphogenetic transformations tha...
There have been significant advances in understanding human embryogenesis using human pluripotent st...
SummaryTransformation of pluripotent epiblast cells into a cup-shaped epithelium as the mouse blasto...
Transformation of pluripotent epiblast cells into a cup-shaped epithelium as the mouse blastocyst im...
Following implantation, the human embryo undergoes major morphogenetic transformations that establis...
After maternal predetermination gives way to zygotic regulation, a ground state is established withi...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
AbstractThe epiblast is a single cell-layered epithelium which generates through gastrulation all ti...
In the mammalian embryo, epiblast cells must exit the naïve state and acquire formative pluripotency...
Pluripotency defines the propensity of a cell to differentiate into, and generate, all somatic, as w...
Pluripotent cells in the mammalian embryo undergo state transitions marked by changes in patterns of...
SummaryThe pluripotent epiblast (EPI) is the founder tissue of almost all somatic cells. EPI and pri...
In the mammalian embryo, epiblast cells must exit the naive state and acquire formative pluripotency...
The foundations of mammalian development lie in a cluster of embryonic epiblast stem cells. In respo...
The foundations of mammalian development lie in a cluster of embryonic epiblast stem cells. In respo...
Abstract: Following implantation, the human embryo undergoes major morphogenetic transformations tha...
There have been significant advances in understanding human embryogenesis using human pluripotent st...
SummaryTransformation of pluripotent epiblast cells into a cup-shaped epithelium as the mouse blasto...
Transformation of pluripotent epiblast cells into a cup-shaped epithelium as the mouse blastocyst im...
Following implantation, the human embryo undergoes major morphogenetic transformations that establis...
After maternal predetermination gives way to zygotic regulation, a ground state is established withi...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
AbstractThe epiblast is a single cell-layered epithelium which generates through gastrulation all ti...
In the mammalian embryo, epiblast cells must exit the naïve state and acquire formative pluripotency...
Pluripotency defines the propensity of a cell to differentiate into, and generate, all somatic, as w...
Pluripotent cells in the mammalian embryo undergo state transitions marked by changes in patterns of...
SummaryThe pluripotent epiblast (EPI) is the founder tissue of almost all somatic cells. EPI and pri...
In the mammalian embryo, epiblast cells must exit the naive state and acquire formative pluripotency...