Add to ORKGDevelopment of the early mouse embryo has always been classified as regulative, meaning that when parts or blastomeres of the embryo are isolated they change their developmental fate and can even reconstruct the whole. However, regulative development does not mean that, in situ, these parts or blastomeres are equivalent; it does not mean that the early mammalian embryo is a ball of identical cells without any bias. Regulative development simply means that whatever bias the regions of the embryo might have they still remain flexible and can respond to experimental interference by changes of fate. This realization — that regulative development and patterning can co-exist — has led to a renaissance of interest in the first days of development ...
The separation of inner cell mass and trophectoderm is the first cell fate specification event in ma...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
There is a long-running controversy about how early cell fate decisions are made in the developing m...
Development of the early mouse embryo has always been classified as regulative, meaning that when pa...
Early mammalian development is regulative — it is flexible and responsive to experimental interventi...
Early development of the mouse comprises a sequence of cell fate decisions in which cells are guided...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
Cells of early mouse embryo were considered for a long time to acquire cell fate at random. Recent a...
The preimplantation mammalian embryo offers a striking opportunity to address the question of how an...
A central question in contemporary stem and developmental biology and modern medicine is how develop...
A growing body of evidence indicates that although the early mouse embryo retains flexibility in res...
Specification of cell fate in the early mouse embryo involves the generation of heterogeneities betw...
SummaryBackgroundThe cleavage-stage mouse embryo is composed of superficially equivalent blastomeres...
In the mouse embryo, the first differences between cells that result in distinct lineages have long ...
AbstractThe first event of differentiation in mammalian embryogenesis is the segregation of the inne...
The separation of inner cell mass and trophectoderm is the first cell fate specification event in ma...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
There is a long-running controversy about how early cell fate decisions are made in the developing m...
Development of the early mouse embryo has always been classified as regulative, meaning that when pa...
Early mammalian development is regulative — it is flexible and responsive to experimental interventi...
Early development of the mouse comprises a sequence of cell fate decisions in which cells are guided...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
Cells of early mouse embryo were considered for a long time to acquire cell fate at random. Recent a...
The preimplantation mammalian embryo offers a striking opportunity to address the question of how an...
A central question in contemporary stem and developmental biology and modern medicine is how develop...
A growing body of evidence indicates that although the early mouse embryo retains flexibility in res...
Specification of cell fate in the early mouse embryo involves the generation of heterogeneities betw...
SummaryBackgroundThe cleavage-stage mouse embryo is composed of superficially equivalent blastomeres...
In the mouse embryo, the first differences between cells that result in distinct lineages have long ...
AbstractThe first event of differentiation in mammalian embryogenesis is the segregation of the inne...
The separation of inner cell mass and trophectoderm is the first cell fate specification event in ma...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
There is a long-running controversy about how early cell fate decisions are made in the developing m...