Add to ORKGDespite an apparent lack of determinants that specify cell fate, spatial patterning of the mouse embryo is evident early in development. The axis of the post-implantation egg cylinder can be traced back to organization of the pre-implantation blastocyst. This in turn reflects the organization of the cleavage-stage embryo and the animal–vegetal axis of the zygote. These findings suggest that the cleavage pattern of normal development may be involved in specifying the future embryonic axis; however, how and when this pattern becomes established is unclear. In many animal eggs, the sperm entry position provides a cue for embryonic patterning, but until now no such role has been found in mammals. Here we show that the sperm entry position predi...
Re-patterning is visible and well understood in some species. However, controversy remains as to whe...
One of the unanswered questions in mammalian development is how the embryonic–abembryonic axis of th...
Although in most species the polarity of the embryo takes its roots from the spatial patterning of t...
Despite an apparent lack of determinants that specify cell fate, spatial patterning of the mouse emb...
AbstractAlthough mouse development is regulative, the cleavage pattern of the embryo is not random [...
A growing body of evidence indicates that although the early mouse embryo retains flexibility in res...
Although mouse development is regulative, the cleavage pattern of the embryo is not random [1, 2]. T...
AbstractMost experimental embryological studies performed on the early mouse embryo have led to the ...
Although mouse development is regulative, the cleavage pattern of the embryo is not random 1, 2. The...
The sperm entry position (SEP) of the mouse egg, labelled by placing a bead at the fertilisation con...
In most animals the body axis is specified in the egg. Because of their highly regulative capacity a...
The conservation of early cleavage patterns in organisms as diverse as echinoderms and mammals sugge...
Studies of experimentally manipulated embryos<sup>1-4</sup> have led to the long-held conclusion tha...
Studies of experimentally manipulated embryos have led to the long-held conclusion that the polarity...
The first cleavage of the fertilised mouse egg divides the zygote into two cells that have a tendenc...
Re-patterning is visible and well understood in some species. However, controversy remains as to whe...
One of the unanswered questions in mammalian development is how the embryonic–abembryonic axis of th...
Although in most species the polarity of the embryo takes its roots from the spatial patterning of t...
Despite an apparent lack of determinants that specify cell fate, spatial patterning of the mouse emb...
AbstractAlthough mouse development is regulative, the cleavage pattern of the embryo is not random [...
A growing body of evidence indicates that although the early mouse embryo retains flexibility in res...
Although mouse development is regulative, the cleavage pattern of the embryo is not random [1, 2]. T...
AbstractMost experimental embryological studies performed on the early mouse embryo have led to the ...
Although mouse development is regulative, the cleavage pattern of the embryo is not random 1, 2. The...
The sperm entry position (SEP) of the mouse egg, labelled by placing a bead at the fertilisation con...
In most animals the body axis is specified in the egg. Because of their highly regulative capacity a...
The conservation of early cleavage patterns in organisms as diverse as echinoderms and mammals sugge...
Studies of experimentally manipulated embryos<sup>1-4</sup> have led to the long-held conclusion tha...
Studies of experimentally manipulated embryos have led to the long-held conclusion that the polarity...
The first cleavage of the fertilised mouse egg divides the zygote into two cells that have a tendenc...
Re-patterning is visible and well understood in some species. However, controversy remains as to whe...
One of the unanswered questions in mammalian development is how the embryonic–abembryonic axis of th...
Although in most species the polarity of the embryo takes its roots from the spatial patterning of t...