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Literature DB >> 28305230

The distribution of nerve cells inHydra attenuata Pall.

Abstract

Polyps ofHydra attenuata Pall. were subdivided into four axial fragments (I-IV) of about identical length. Ecto- and endoderm of each of these fragments were separated from each other and dissociated according to the technique of David (1973). Each preparation was qualitatively and quantitatively examined as to its content of nerve cells.The presence of 11 different types of nerve cells (Tardent and Weber, 1976) could be confirmed. While multipolars (M1, M2), symmetrical bipolars (B1, B2) and unipolars (U1, U2) were found in both layers, asymmetrical bipolars (B3-7) are limited to the endoderm (Fig. 1), which, as a whole, contains fewer nervous elements than the ectoderm (Fig. 2). The ecto- and endoderm of the tentacles could not be separated from each other and the dissociation was only partly successful. It was, however, possible to ascertain that among the nerve cells present in the tentacles the most numerous are the symmetrical bipolars (B1, B2).

Entities: Disease Gene

Keywords: Coelenterates; Distribution in ecto- and endoderm; Hydra attenuata; Nerve-cell-types

Year: 1978 PMID： 28305230 DOI： 10.1007/BF00848677

Source DB: PubMed Journal: Wilehm Roux Arch Dev Biol ISSN： 0340-0794

10 in total

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Authors: A L BURNETT; N A DIEHL
Journal: J Exp Zool Date: 1964-11

2. A quantitative method for maceration of hydra tissue.

Authors: Charles N David
Journal: Wilhelm Roux Arch Entwickl Mech Org Date: 1973-12

3. Quantitative analysis of cell types during growth and morphogenesis in Hydra.

Authors: H Bode; S Berking; C N David; A Gierer; H Schaller; E Trenkner
Journal: Wilhelm Roux Arch Entwickl Mech Org Date: 1973-12

4. Ultrastructural evidence for the presence of nerve cells in the gastrodermis of Hydra.

Authors: L E Davis
Journal: Z Zellforsch Mikrosk Anat Date: 1972

5. Hydra as a model for the development of biological form.

Authors: A Gierer
Journal: Sci Am Date: 1974-12 Impact factor: 2.142

6. Histological and ultrastructural study of the muscular and nervous systems in Hydra. II. Nervous system.

Authors: L E Davis; A L Burnett; J F Haynes
Journal: J Exp Zool Date: 1968-03

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Authors: G E Lesh; A L Burnett
Journal: J Exp Zool Date: 1966-10

8. Distribution of the head-activating substance in hydra and its localization in membranous particles in nerve cells.

Authors: H Schaller; A Gierer
Journal: J Embryol Exp Morphol Date: 1973-02

9. Ultrastructural evidence for a granule-containing sensory-motor-interneuron in Hydra littoralis.

Authors: J A Westfall
Journal: J Ultrastruct Res Date: 1973-02

10. Cell cycle kinetics and development of Hydra attenuata. III. Nerve and nematocyte differentiation.

Authors: C N David; A Gierer
Journal: J Cell Sci Date: 1974-11 Impact factor: 5.285

10 in total

8 in total

7. Whole-Body Imaging of Neural and Muscle Activity during Behavior in Hydra vulgaris: Effect of Osmolarity on Contraction Bursts.

Authors: Wataru Yamamoto; Rafael Yuste
Journal: eNeuro Date: 2020-08-24

8. Hydra vulgaris shows stable responses to thermal stimulation despite large changes in the number of neurons.

Authors: Constantine N Tzouanas; Soonyoung Kim; Krishna N Badhiwala; Benjamin W Avants; Jacob T Robinson
Journal: iScience Date: 2021-04-30