Xenopus eggs, artificially fertilized, were prevented from undergoing equilibrium rotation by incubation in medium containing ficoll. Three orientations were selected: normal, with animal pole uppermost; inverted, with vegetal pole away from gravity; and an off-axis orientation, with embryos tilted approximately 90° from the animal-vegetal axis. At blastula stage 8, cells forming the blastocoelic roof were cultured in isolation as explants. These cells are normally fated to form epidermis ventrally and neural derivatives dorsally. Unexpectedly, in the fragments originating from inverted or 90°-off-axis embryos, axial structures were found: notochord, somites, neural cells, cement glands, and sometimes sensory organs. Inverted eggs could be ...
The coordinated orientation of ciliary beat in the larval epidermis of amphibians, evident in an org...
AbstractTwo distinct types of axis lacking embryos resulted from partial deletion of the vegetal par...
The formation of identical twins from a single egg has fascinated developmental biologists for a ver...
Inverted amphibian embryos were employed for an analysis of pattern formation in early embryogenesis...
The establishment of polarities during early embryogenesis is essential for normal development. Amph...
A Xenopus (frog) blastula (pre-gastrulation embryo) will undergo predictable movements in gastrulati...
Textbook accounts of vertebrate embryonic development have been based largely upon experiments on am...
The dorsal marginal zone (DMZ) of the amphibian embryo is a key embryonic region involved in body ax...
The fertilized eggs of Xenopus, as well as those of many other vertebrates, are transformed from a r...
International audienceUnderstanding the genetic programs underlying neural development is an importa...
The establishment of anterior-posterior (AP) regional identity is an essential step in the appropria...
AbstractA new fate map for mesodermal tissues in Xenopus laevis predicted that the prime meridian, w...
Xenopus embryos at the 2-cell stage were cut into right and left halves, those at the 4-cell stage i...
Abstract: Remarkable progress has recently been made in molecular biology of double axis formation i...
Clarifying the underlying spatio-temporal mechanisms that determine body pattern is important for de...
The coordinated orientation of ciliary beat in the larval epidermis of amphibians, evident in an org...
AbstractTwo distinct types of axis lacking embryos resulted from partial deletion of the vegetal par...
The formation of identical twins from a single egg has fascinated developmental biologists for a ver...
Inverted amphibian embryos were employed for an analysis of pattern formation in early embryogenesis...
The establishment of polarities during early embryogenesis is essential for normal development. Amph...
A Xenopus (frog) blastula (pre-gastrulation embryo) will undergo predictable movements in gastrulati...
Textbook accounts of vertebrate embryonic development have been based largely upon experiments on am...
The dorsal marginal zone (DMZ) of the amphibian embryo is a key embryonic region involved in body ax...
The fertilized eggs of Xenopus, as well as those of many other vertebrates, are transformed from a r...
International audienceUnderstanding the genetic programs underlying neural development is an importa...
The establishment of anterior-posterior (AP) regional identity is an essential step in the appropria...
AbstractA new fate map for mesodermal tissues in Xenopus laevis predicted that the prime meridian, w...
Xenopus embryos at the 2-cell stage were cut into right and left halves, those at the 4-cell stage i...
Abstract: Remarkable progress has recently been made in molecular biology of double axis formation i...
Clarifying the underlying spatio-temporal mechanisms that determine body pattern is important for de...
The coordinated orientation of ciliary beat in the larval epidermis of amphibians, evident in an org...
AbstractTwo distinct types of axis lacking embryos resulted from partial deletion of the vegetal par...
The formation of identical twins from a single egg has fascinated developmental biologists for a ver...