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The distribution of lens differentiation capacity in the head ectoderm of chick embryos. 1982

V M Barabanov, and N G Fedtsova

The distribution of lens self-differentiation capacity in the head ectoderm of chick embryos during stages 4-13 (defined by Hamburger and Hamilton) was investigated. Different fragments of head ectoderm were cultivated in organ culture in vitro. Lens cells and lentoids formed in explants were identified by the indirect immunofluorescence technique with monospecific rabbit antisera to chick lens proteins: alpha-, beta-, and delta-crystallins. It was established that besides presumptive lens ectoderm, the lateral head ectoderm and ectoderm of stomodeal area of stages 10-11 chick embryos differentiated into lens cells when separated and cultured alone. The cultivation of presumptive lens ectoderm resulted in lens fiber differentiation in most explants. In the explants of lateral head ectoderm and those of the ectoderm of the stomodeal area, the lentoids and groups of cells containing crystallins were also found in most cases. In some, all cells of the explants taken from these areas differentiated into lens tissue. These results show that in the chick embryos at stages 10-11, capacity for lens self-differentiation is distributed over a large continuous area of the head ectoderm. The potential seems to arise during the process of gastrulation. The head ectoblast of stage 4-5 chick embryos can achieve at least three differentiation in vitro--lens, epidermal-like, and neutral. In the chick head ectoderm, at the beginning of neurulation two areas can be distinguished according to their capacity for self-differentiation. The area situated in front of the head fold develops into lens and epidermal-like tissues in vitro, whereas the area between the head fold and Hensen's node develops into neural tissue. In the course of further development, lens potential was restricted to the presumptive lens ectoderm. Most of the head ectoderm develops in normogenesis in several directions without any traits of lens differentiation. The formation of Rathke's pouch (adanohypaphysis anlage) by cells which have synthesized beta-crystallins is the only known case (besides the lens anlage) in which an expression of lens potential of head ectoderm occurs.

UI MeSH Term Description Entries
D007908 Lens, Crystalline A transparent, biconvex structure of the EYE, enclosed in a capsule and situated behind the IRIS and in front of the vitreous humor (VITREOUS BODY). It is slightly overlapped at its margin by the ciliary processes. Adaptation by the CILIARY BODY is crucial for OCULAR ACCOMMODATION. Eye Lens,Lens, Eye,Crystalline Lens
D009924 Organ Culture Techniques A technique for maintenance or growth of animal organs in vitro. It refers to three-dimensional cultures of undisaggregated tissue retaining some or all of the histological features of the tissue in vivo. (Freshney, Culture of Animal Cells, 3d ed, p1) Organ Culture,Culture Technique, Organ,Culture Techniques, Organ,Organ Culture Technique,Organ Cultures
D002454 Cell Differentiation Progressive restriction of the developmental potential and increasing specialization of function that leads to the formation of specialized cells, tissues, and organs. Differentiation, Cell,Cell Differentiations,Differentiations, Cell
D002642 Chick Embryo The developmental entity of a fertilized chicken egg (ZYGOTE). The developmental process begins about 24 h before the egg is laid at the BLASTODISC, a small whitish spot on the surface of the EGG YOLK. After 21 days of incubation, the embryo is fully developed before hatching. Embryo, Chick,Chick Embryos,Embryos, Chick
D003459 Crystallins A heterogeneous family of water-soluble structural proteins found in cells of the vertebrate lens. The presence of these proteins accounts for the transparency of the lens. The family is composed of four major groups, alpha, beta, gamma, and delta, and several minor groups, which are classed on the basis of size, charge, immunological properties, and vertebrate source. Alpha, beta, and delta crystallins occur in avian and reptilian lenses, while alpha, beta, and gamma crystallins occur in all other lenses. Lens Proteins,Crystallin,Eye Lens Protein,Lens Protein, Eye,Protein, Eye Lens,Proteins, Lens
D005455 Fluorescent Antibody Technique Test for tissue antigen using either a direct method, by conjugation of antibody with fluorescent dye (FLUORESCENT ANTIBODY TECHNIQUE, DIRECT) or an indirect method, by formation of antigen-antibody complex which is then labeled with fluorescein-conjugated anti-immunoglobulin antibody (FLUORESCENT ANTIBODY TECHNIQUE, INDIRECT). The tissue is then examined by fluorescence microscopy. Antinuclear Antibody Test, Fluorescent,Coon's Technique,Fluorescent Antinuclear Antibody Test,Fluorescent Protein Tracing,Immunofluorescence Technique,Coon's Technic,Fluorescent Antibody Technic,Immunofluorescence,Immunofluorescence Technic,Antibody Technic, Fluorescent,Antibody Technics, Fluorescent,Antibody Technique, Fluorescent,Antibody Techniques, Fluorescent,Coon Technic,Coon Technique,Coons Technic,Coons Technique,Fluorescent Antibody Technics,Fluorescent Antibody Techniques,Fluorescent Protein Tracings,Immunofluorescence Technics,Immunofluorescence Techniques,Protein Tracing, Fluorescent,Protein Tracings, Fluorescent,Technic, Coon's,Technic, Fluorescent Antibody,Technic, Immunofluorescence,Technics, Fluorescent Antibody,Technics, Immunofluorescence,Technique, Coon's,Technique, Fluorescent Antibody,Technique, Immunofluorescence,Techniques, Fluorescent Antibody,Techniques, Immunofluorescence,Tracing, Fluorescent Protein,Tracings, Fluorescent Protein
D005855 Germ Layers The three primary germinal layers (ECTODERM; ENDODERM; and MESODERM) developed during GASTRULATION that provide tissues and body plan of a mature organism. They derive from two early layers, hypoblast and epiblast. Epiblast,Hypoblast,Epiblasts,Germ Layer,Hypoblasts,Layer, Germ,Layers, Germ
D006257 Head The upper part of the human body, or the front or upper part of the body of an animal, typically separated from the rest of the body by a neck, and containing the brain, mouth, and sense organs. Heads
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia

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