The fusion of two highly differentiated cells, an oocyte with a spermatozoon, gives rise to the zygote, a single totipotent cell, which has the capability to develop into a complete, fully functional organism. Then, as development proceeds, a series of programmed cell divisions occur whereby the arising cells progressively acquire their own cellular and molecular identity, and totipotency narrows until when pluripotency is achieved. The path towards pluripotency involves transcriptome modulation, remodeling of the chromatin epigenetic landscape to which external modulators contribute. Both human and mouse embryos are a source of different types of pluripotent stem cells whose characteristics can be captured and maintained in vitro. T...
Our current understanding of how stem cells arise and transition during embryonic development has b...
In mammals, epigenetic reprogramming, the acquisition and loss of totipotency, and the first cell fa...
Cell plasticity or potency is necessary for the formation of multiple cell types. The mechanisms und...
The fusion of two highly differentiated cells, an oocyte with a spermatozoon, gives rise to the zyg...
Pluripotency is depicted by a self-renewing state that can competently differentiate to form the thr...
Background: Pluripotent stem cells have been derived from a variety of sources such as from the inne...
Pluripotency defines the propensity of a cell to differentiate into, and generate, all somatic, as w...
Each of us started out as a single cell, a fertilized egg. The subsequent development of an embryo i...
A central question in contemporary stem and developmental biology and modern medicine is how develop...
Pluripotency is a unique developmental state that lays the foundation upon which the entire embryo i...
Pluripotent stem cells hold great promise for cell-based therapies in regenerative medicine. However...
Mammalian development requires the creation of hundreds of cell types, each with distinct patterns o...
Abstract Pluripotency is defined as the potential of a cell to differentiate into cells of the three...
AbstractThe earliest steps of embryonic development involve important changes in chromatin and trans...
SummaryPluripotency is a unique developmental state that lays the foundation upon which the entire e...
Our current understanding of how stem cells arise and transition during embryonic development has b...
In mammals, epigenetic reprogramming, the acquisition and loss of totipotency, and the first cell fa...
Cell plasticity or potency is necessary for the formation of multiple cell types. The mechanisms und...
The fusion of two highly differentiated cells, an oocyte with a spermatozoon, gives rise to the zyg...
Pluripotency is depicted by a self-renewing state that can competently differentiate to form the thr...
Background: Pluripotent stem cells have been derived from a variety of sources such as from the inne...
Pluripotency defines the propensity of a cell to differentiate into, and generate, all somatic, as w...
Each of us started out as a single cell, a fertilized egg. The subsequent development of an embryo i...
A central question in contemporary stem and developmental biology and modern medicine is how develop...
Pluripotency is a unique developmental state that lays the foundation upon which the entire embryo i...
Pluripotent stem cells hold great promise for cell-based therapies in regenerative medicine. However...
Mammalian development requires the creation of hundreds of cell types, each with distinct patterns o...
Abstract Pluripotency is defined as the potential of a cell to differentiate into cells of the three...
AbstractThe earliest steps of embryonic development involve important changes in chromatin and trans...
SummaryPluripotency is a unique developmental state that lays the foundation upon which the entire e...
Our current understanding of how stem cells arise and transition during embryonic development has b...
In mammals, epigenetic reprogramming, the acquisition and loss of totipotency, and the first cell fa...
Cell plasticity or potency is necessary for the formation of multiple cell types. The mechanisms und...