Journal ArticleDOI
Topographical changes along the neural fold associated with neurulation in the hamster and mouse
TLDR
The topography of the ectoderm was examined by scanning electron microscopy during neurulation in hamster and mouse embryos to reflect changes in the membrane properties of the altered cells which are correlated with both neural crest formation and initial adhesion between the folds.Abstract:
The topography of the ectoderm was examined by scanning electron microscopy during neurulation in hamster and mouse embryos. Stages from the appearance of the neural folds to closure of the posterior neuropore were studied. Progressive development of a zone of altered cellular morphology was observed along the crests of the neural folds. This zone evolved from and abrupt transition between surface and neural regions of the ectoderm to a narrow band of flattened cells which exhibited numerous membranous “ruffles” in the mouse, or blebs and presumably degenerating cells in the hamster, immediately prior to contact between the folds. These alterations were more prominent along the anterior than the posterior portions of the folds. Contact of the folds occurred first between the flattened cells with subsequent union of the surface cells. Stages of neural crest cell formation were observed subjacent to the zone of alterations in histological sections. It is suggested that the observed surface alterations may reflect changes in the membrane properties of the altered cells which are correlated with both neural crest formation and initial adhesion between the folds.read more
Citations
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Journal ArticleDOI
Evidence for multi‐site closure of the neural tube in humans
Margot I. Van Allen,Dagmar K. Kalousek,Gerold F. Chernoff,Diana M. Juriloff,Muriel J. Harris,Barbara McGillivray,Siu-Li Yong,Sylvie Langlois,Patrick MacLeod,David Chitayat,Jan M. Friedman,R. Doug Wilson,Deborah E. McFadden,J T Pantzar,Susan Ritchie,Judith G. Hall +15 more
TL;DR: With the multi-site NT closure model, it is found that the majority of NTDs can be explained by failure of fusion of one of the closures or their contiguous neuropores.
Journal ArticleDOI
Neural tube closure: cellular, molecular and biomechanical mechanisms.
TL;DR: The cellular, molecular and biomechanical mechanisms involved in neural tube closure are reviewed, based on studies of various vertebrate species, focusing on the most recent advances in the field.
Journal ArticleDOI
The embryonic development of mammalian neural tube defects.
Journal ArticleDOI
Neural tube defects: a review of human and animal studies on the etiology of neural tube defects.
TL;DR: Animal models have allowed investigation of the mechanisms of suggested human teratogens and determination of the pathogenesis of naturally occurring animal defects and their most important contribution has been in furthering the understanding of the normal mechanisms of neural tube closure.
Journal ArticleDOI
Histological and ultrastructural studies of secondary neurulation in mouse embryos
TL;DR: Observations suggest that cavitation per se during secondary neurulation is a relatively passive phenomenon, which results principally from neighboring cells becoming polarized apicobasally and incorporated into a primitive neuroepithelium.
References
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Journal ArticleDOI
Neuronal migration, with special reference to developing human brain: a review.
TL;DR: The intervening migrations, particularly in the human nervous system, form the subject of this review and are suggested that the special relationships involved in these various migrations are probably mediated by cell surface properties, and that such surface properties will come to be defined through analysis of reaggregation tissue cultures, experimental and natural chimeras, and by immunological definition of antigens on CNS cells at different stages of development.
Journal ArticleDOI
The locomotion of fibroblasts in culture I. Movements of the leading edge
TL;DR: During the locomotion on a plane surface of fibroblast-like cells from embryonic chick heart and neonatal mouse muscle, any point on the leading edge undergoes a repetitive protrusion and withdrawal, covering about 5 μm which is quantitatively very similar in the two kinds of cell.
Book ChapterDOI
The Mechanisms of Neural Tube Formation
TL;DR: The formation of the neural tube is significant for several reasons; this organogenetic process represents the culmination of the earliest inductive process of the developing embryo, and neurulation is also interesting from the point of view of the control mechanisms of induction.
Journal ArticleDOI
Movements of Epithelial Cell Sheets In Vitro
TL;DR: Chick embryo epithelial cells, cultured in vitro on a plane glass surface, show ruffled membrane activity like that seen in fibroblasts, where long-lasting adhesions form, which are associated with the cessation of membrane activity.
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