On the distribution of RNA in the early stages of the development of the epithelium of the inner ear of chick embryos

1965 ◽  
Vol 52 (12) ◽  
pp. 348-348
Author(s):  
M. de Vincentiis ◽  
F. Marmo
Keyword(s):  
Inner Ear ◽  
Chick Embryos ◽  
Early Stages

The chick limbless mutation causes abnormalities in limb bud dorsal-ventral patterning: implications for the mechanism of apical ridge formation

Development ◽  
1996 ◽  
Vol 122 (12) ◽  
pp. 3851-3861 ◽  
Author(s):  
U. Grieshammer ◽  
G. Minowada ◽  
J.M. Pisenti ◽  
U.K. Abbott ◽  
G.R. Martin
Keyword(s):  
Gene Expression ◽  
Limb Development ◽  
Positional Information ◽  
Limb Bud ◽  
Local Application ◽  
Chick Embryos ◽  
Limb Buds ◽  
Early Stages ◽  
Potential Link

In chick embryos homozygous for the limbless mutation, limb bud outgrowth is initiated, but a morphologically distinct apical ridge does not develop and limbs do not form. Here we report the results of an analysis of gene expression in limbless mutant limb buds. Fgf4, Fgf8, Bmp2 and Msx2, genes that are expressed in the apical ridge of normal limb buds, are not expressed in the mutant limb bud ectoderm, providing molecular support for the hypothesis that limb development fails in the limbless embryo because of the inability of the ectoderm to form a functional ridge. Moreover, Fgf8 expression is not detected in the ectoderm of the prospective limb territory or the early limb bud of limbless embryos. Since the early stages of limb bud outgrowth occur normally in the mutant embryos, this indicates that FGF8 is not required to promote initial limb bud outgrowth. In the absence of FGF8, Shh is also not expressed in the mutant limb buds, although its expression can be induced by application of FGF8-soaked beads. These observations support the hypothesis that Fgf8 is required for the induction of Shh expression during normal limb development. Bmp2 expression was also not detected in mutant limb mesoderm, consistent with the hypothesis that SHH induces its expression. In contrast, SHH is not required for the induction of Hoxd11 or Hoxd13 expression, since expression of both these genes was detected in the mutant limb buds. Thus, some aspects of mesoderm A-P patterning can occur in the absence of SHH and factors normally expressed in the apical ridge. Intriguingly, mutant limbs rescued by local application of FGF displayed a dorsalized feather pattern. Furthermore, the expression of Wnt7a, Lmx1 and En1, genes involved in limb D-V patterning, was found to be abnormal in mutant limb buds. These data suggest that D-V patterning and apical ridge formation are linked, since they show that the limbless mutation affects both processes. We present a model that explains the potential link between D-V positional information and apical ridge formation, and discuss the possible function of the limbless gene in terms of this model.

The origin of the abnormalities of the inner ear in dreher mice

Development ◽  
1964 ◽  
Vol 12 (4) ◽  
pp. 727-733
Author(s):  
M. S. Deol
Keyword(s):  
Inner Ear ◽  
Neural Tube ◽  
Otic Vesicle ◽  
Stages Of Development ◽  
Early Stages

The anatomy and development of the inner ear in dreher (dr/dr) mice has been described in detail by Fischer (1956, 1957, 1958). The abnormalities first appear at the 10-day stage, and consist in the retarded development of Anson's folds (Anson, 1934). In the adult labyrinth the cochlear tube is shorter than normal and not so tightly coiled, the scala media opens widely into the sacculus without the intervention of a ductus reuniens, and the sacculus similarly opens into the utriculus without saccular and utricular ducts. These abnormalities may be viewed as signs of an incomplete or weak differentiation of the otic vesicle. As it is known from experiments on amphibians and birds that the differentiation of the otic vesicle into a multi-chambered labyrinth depends on the inductive influence of the neural tube (Harrison, 1945; Detwiler & van Dyke, 1950; Yntema, 1950), and as there is some evidence that this is also true of mammals (Deol, 1964), it was thought that an examination of the neural tube in dreher mice in early stages of development would be desirable.

scholarly journals Retinoids reprogramme pre-bud mesenchyme to give changes in limb pattern

Development ◽  
1987 ◽  
Vol 100 (4) ◽  
pp. 723-733 ◽  
Author(s):  
S.M. Wilde ◽  
S.E. Wedden ◽  
C. Tickle
Keyword(s):  
Retinoic Acid ◽  
Effective Treatment ◽  
Limb Development ◽  
Apical Ectodermal Ridge ◽  
Limb Bud ◽  
Chick Embryos ◽  
Early Stages ◽  
Limb Pattern

Retinoic acid was locally applied to presumptive limb regions of chick embryos to find out the earliest time at which the limb pattern can be reprogrammed. When beads soaked in retinoic acid were placed in the appropriate positions in embryos at stage 10 or older, duplicated or reduced leg patterns resulted. To pin point the time at which the cells in the limb rudiment respond to the retinoid, beads were removed at various times and the lengths of exposure required to reprogramme limb development found. The early limb rudiments require longer exposures to give duplications than late rudiments. The effective treatment periods last at least until stage 17 when the limb bud and apical ectodermal ridge develop. In contrast, the length of exposure to reduce the limb is constant at early stages. Retinoids first start acting to produce duplicated structures between stages 10 and 13. Therefore, retinoids appear to begin to reprogramme the cells as soon as they are determined to give rise to a limb.

scholarly journals OBSERVATIONS ON THE INFECTION OF CHICK EMBRYOS WITH BACTERIUM TULARENSE, BRUCELLA, AND PASTEURELLA PESTIS

1941 ◽  
Vol 74 (3) ◽  
pp. 213-222 ◽  
Author(s):  
G. John Buddingh ◽  
Frank C. Womack
Keyword(s):  
Epithelial Cells ◽  
Chick Embryo ◽  
Vascular Endothelium ◽  
Brucella Abortus ◽  
Brucella Melitensis ◽  
Chick Embryos ◽  
Intracellular Growth ◽  
Early Stages ◽  
Brucella Suis ◽  
Natural Hosts

1. Comparison of the infections of chick embryos by the chorio-allantoic route indicates that Bacterium tularense and Brucella suis, abortus, and melitensis exhibit varying degrees of facultative intracellular parasitism. Pasteurella pestis is adapted to rapid proliferation and spread in the intercellular fluids. 2. In the early stages of infection Bacterium tularense has a marked affinity for growth within ectodermal epithelial cells. Brucella suis and Brucella abortus differ in their selectivity for cells of mesodermal derivation and especially in their effect on vascular endothelium. The strain of Brucella melitensis studied is limited in its intracellular growth to ectodermal epithelium. 3. Many of the features characteristic of these infections in the natural hosts are reproduced in the chick embryo and its membranes. 4. The possible implications regarding the differences in behavior of these microorganisms in relation to the problem of infection and pathogenesis of these diseases are discussed.

scholarly journals Development of Body Movement During Early Stages of Chick Embryos

2021 ◽  
Vol 9 (2) ◽  
pp. 60-65
Author(s):  
Kenji Moriya ◽  
Masahi Kudo ◽  
Yuya Chiba
Keyword(s):  
Body Movement ◽  
Chick Embryos ◽  
Early Stages

scholarly journals Ephrin/ephrin receptor expression during early stages of mouse inner ear development

2011 ◽  
Vol 240 (6) ◽  
pp. 1578-1585 ◽  
Author(s):  
Bernhard M. Saeger ◽  
Martina Suhm ◽  
Annette Neubüser
Keyword(s):  
Inner Ear ◽  
Receptor Expression ◽  
Ear Development ◽  
Early Stages ◽  
Ephrin Receptor ◽  
Inner Ear Development

scholarly journals The Effect of Benzimidazole on the Differentiation of Ectodermal Explants from the Gastrulae of Xenopus laevis

Development ◽  
1960 ◽  
Vol 8 (4) ◽  
pp. 396-404
Author(s):  
F. Billett ◽  
S. K. Brahma
Keyword(s):  
Xenopus Laevis ◽  
Neural Tube ◽  
Chick Embryos ◽  
Stages Of Development ◽  
Early Stages ◽  
General Kind ◽  
The Way

The treatment of amphibian and chick embryos during the early stages of development with small concentrations of benzimidazole, and some of its derivatives, results in the formation of abnormal embryos (Liedke, Engleman, & Graff, 1954; Waddington, Feldman, & Perry, 1955a; Billett & Perry, 1957 a, b). The gross effects produced by these substances are of a fairly general kind. Abnormal gastrulation, decomposition of neurulae, and microcephaly are produced in Amphibia. Rather less well-defined abnormalities, involving the head, neural tube, and somites, are seen in the chick. The way in which these abnormalities are produced is not known. The idea that benzimidazole acts simply as a purine anti-metabolite is not well founded (Slonimski, 1954). The work of Tamm and his colleagues (Tamm, Folkers, Shunk, & Horsfall, 1953; Tamm, 1958) has shown that benzimidazole and certain of its derivatives inhibit the growth of some viruses.

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