The neuronal organization of cerebellar lobe C1 in the mormyrid fish gnathonemus petersii (teleostei)

@article{Nieuwenhuys2004TheNO,
  title={The neuronal organization of cerebellar lobe C1 in the mormyrid fish gnathonemus petersii (teleostei)},
  author={Rudolf Nieuwenhuys and Erika Pouwels and E. Smulders-Kersten},
  journal={Zeitschrift f{\"u}r Anatomie und Entwicklungsgeschichte},
  year={2004},
  volume={144},
  pages={315-336}
}
SummaryThe corpus cerebelli of mormyrid fishes is strongly developed and differentiated into four lobes: C1−C4. Although all of these lobes contain the characteristic cerebellar layers: granular, ganglionic and molecular, they show distinct architectonic differences. A previous study revealed that the ganglionic layer of C1, in addition to Purkinje elements contains conspicuous giant cells. In the present paper the results of a further analysis of C1 are reported. This analysis is based on… 
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Cell morphology and circuitry in the central lobes of the mormyrid cerebellum
TLDR
The central lobes of the mormyrid cerebellum, similar to the mammalian cerebellums, are composed of sagittally oriented modules made up of Purkinje cells, climbing fibers, molecular layer interneurons, and cerebellar efferent cells (cerebellar nucleus cells in mammals) that Purkinja cells inhibit.
On the development of the cerebellum of the trout,Salmo gairdneri
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The differentiation of the cerebellar neurons and of their afferent fibres has been studied in young specimens of Salmo gairdneri Richardson, 1836 and throughout development “dark cells” are found in osmiumstained material.
The neuronal organization of a unique cerebellar specialization: The valvula cerebelli of a mormyrid fish
TLDR
The results confirm and extend previous studies and suggest a new concept of the circuitry of the mormyrid valvula cerebelli, which is organized in ridges of ganglionic and molecular layers, oriented perpendicular to the granular layer.
On the development of the cerebellum of the trout, Salmo gairdneri
TLDR
It is indicated that growth cones and filopodia are characteristic of most and probably of all types of cells in the early developing cerebellum.
On the development of the cerebellum of the trout, Salmo gairdneri
TLDR
Patterns of cell migration in the cerebellum of Salmo gairdneri RICHARDSON, 1836 were studied in fish and elucidates both the histogenesis and the morphogenesis of the cere Bellum of the trout.
Morphology and immunohistochemistry of efferent neurons of the goldfish corpus cerebelli
TLDR
The results suggest that there are some functional differences between the eurydendroid cells in teleosts, similar to that between the deep cerebellar nuclei and Purkinje cells in mammals.
The Teleost Fish
TLDR
Afferent and efferent fiber connection patterns suggest that the basic functions of the teleost cerebellum are similar to those of other vertebrates, but each subdivision of the Teleost Cerebellum is functionally separated.
Cerebellar efferent neurons in teleost fish
TLDR
Results suggest that the eurydendroid cells receive GABAergic inputs from the Purkinje cells, similar to that between the cerebellar nuclei and Purkinja cells in mammals.
Parvalbumin immunoreactive neurons and fibres in the teleost cerebellum
TLDR
The immunoreactivity distribution pattern for PV in the teleost cerebellum differs from previous observations on the localization of this protein in the cerebellity of amniotes.
Afferent and efferent connections of the cerebellum of a salmonid, the rainbow trout (Oncorhynchus mykiss): A tract‐tracing study
TLDR
The results in a teleost with a generalized brain indicate several differences with respect to the cerebellar connections reported in other teleost fishes that have specialized brains.
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References

SHOWING 1-10 OF 25 REFERENCES
Cerebellum of Mormyrids
TLDR
It is shown that in one group of teleosts, the Mormyrids, the cerebellum attains amazing dimensions and in these forms the valvula consists of an intermediate part and two lateral lobes, and it is the latter which has greatly hypertrophied.
The recurrent collaterals of Purkinje cell axons: A correlated study of the rat's cerebellar cortex with electron microscopy and the Golgi method
  • V. Chan‐Palay
  • Biology
    Zeitschrift für Anatomie und Entwicklungsgeschichte
  • 2004
TLDR
It is suggested that recurrent collaterals from axons ofPurkinje cells may provide a rapid monosynaptic feed-back mechanism for inhibitory control of Purkinje cell responses and participate in a slower positive feed-forward circuit or resetting mechanism involving at least two synapses.
On the identification of the afferent axon terminals in the nucleus lateralis of the cerebellum an electron microscope study
  • V. Chan‐Palay
  • Biology
    Zeitschrift für Anatomie und Entwicklungsgeschichte
  • 2004
TLDR
Axon terminals in the neuropil of the lateral nucleus can be divided into six classes, each with a specific constellation of characteristics that consistently occur together, and the various synaptic relationships undertaken by each class of axon are discussed in detail.
The distribution of recurrent purkinje collateral synapses in the mouse cerebellar cortex: An electron microscopic study
TLDR
The study of the distribution of Purkinje collateral synapses revealed that one third formed the supraganglionic plexus in the lower molecular layer and two thirds formed an infraganglionics plexi in the upper granular zone.
The inhibitory vestibular efferent system and its relation to the cerebellum in the frog
TLDR
It is concluded that a direct cerebello-otolithic efferent system represented by axons of Purkinje cells is present in the frog, which represents the first demonstration of cerebellar control of a sensory input.
II. Contributions to the anatomy of the central nervous system in vertebrate animals. Sub-section I. Teleostei. Appendix. On the brain of the Mormyridæ
  • A. Sanders
  • Biology
    Proceedings of the Royal Society of London
  • 1882
The author, after a preliminary sketch of the literature of the subject, and a description of his method of hardening and staining, proceeds to give an idea of the external aspect of the central
The inhibitory mechanism in the frog cerebellar cortex. I. Analysis of the field potentials.
  • T. Shimono
  • Biology
    The Japanese journal of physiology
  • 1973
TLDR
It is concluded that two inhibitory mechanisms operate in the frog cerebellar cortex: stellate cell inhibition of Purkinje cells and Golgi cell inhibited of granule cells.
A reliable staining method for semi-thin sections in experimental neurfanatomy.
A light and EM study of lobe C 1 of the gigantocerebellum of the mormyrid fish Gnathonemus petersi
  • Anat . Ree .
  • 1973
Stellate cells and their synapses on Purkinje cells in the cerebellum of the frog.
...
1
2
3
...