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Literature DB >> 6167365

Inverted pyramidal neurons and their axons in the neocortex of reeler mutant mice.

Abstract

Inverted pyramidal neurons are very abundant in the cerebral cortex of the adult reeler mutant mouse. Two types of inverted pyramid are found in rapid Golgi impregnations. In the first type the axon starts from the base of the cell body and bends towards the white matter. In the second type, which is more common, the axon emerges from the apical dendritic tree and descends directly towards the white matter. Despite its abnormal topography, the site of origin of the axon in pyramids of the second type displays a normal differentiation, when analysed with the electron microscopic Golgi technique, suggesting that the ectopic initial axon segment is able to fulfil its normal functions.

Entities: Gene Species

Mesh：

Year: 1981 PMID： 6167365 DOI： 10.1007/BF00210345

Source DB: PubMed Journal: Cell Tissue Res ISSN： 0302-766X Impact factor: 5.249

15 in total

1. Patterns of cell and fiber distribution in the neocortex of the reeler mutant mouse.

Authors: V S Caviness
Journal: J Comp Neurol Date: 1976-12-15 Impact factor: 3.215

Review 2. Mechanisms of cortical development: a view from mutations in mice.

Authors: V S Caviness; P Rakic
Journal: Annu Rev Neurosci Date: 1978 Impact factor: 12.449

3. Structural changes in the area striata of the mouse after enucleation.

Authors: F Valverde
Journal: Exp Brain Res Date: 1968 Impact factor: 1.972

4. Time of origin or corresponding cell classes in the cerebral cortex of normal and reeler mutant mice: an autoradiographic analysis.

Authors: V S Caviness; R L Sidman
Journal: J Comp Neurol Date: 1973-03-15 Impact factor: 3.215

5. Retrohippocampal, hippocampal and related structures of the forebrain in the reeler mutant mouse.

Authors: V S Caviness; R L Sidman
Journal: J Comp Neurol Date: 1973-01-15 Impact factor: 3.215

6. Experimental reorganization of the cerebellar cortex. I. Morphological effects of elimination of all microneurons with prolonged x-irradiation started at birth.

Authors: J Altman; W J Anderson
Journal: J Comp Neurol Date: 1972-11 Impact factor: 3.215

7. The cellular pathology of microgyria. A Golgi analysis.

Authors: R S Williams; R J Ferrante; V S Caviness
Journal: Acta Neuropathol Date: 1976-11-15 Impact factor: 17.088

8. Interhemispheric neocortical connections of the corpus callosum in the reeler mutant mouse: a study based on anterograde and retrograde methods.

Authors: V S Caviness; C H Yorke
Journal: J Comp Neurol Date: 1976-12-15 Impact factor: 3.215

9. A new procedure for examining Golgi impregnated neurons by light and electron microscopy.

Authors: A Fairén; A Peters; J Saldanha
Journal: J Neurocytol Date: 1977-06

10. [Lissencephaly: agyria. A study using the Golgi technic].

Authors: I Ferrer; E Fernandez-Alvarez
Journal: J Neurol Sci Date: 1977-10 Impact factor: 3.181

12 in total

Review 1. Emerging topics in Reelin function.

Authors: Eckart Förster; Hans H Bock; Joachim Herz; Xuejun Chai; Michael Frotscher; Shanting Zhao
Journal: Eur J Neurosci Date: 2010-05 Impact factor: 3.386

Inverted pyramidal neurons and their axons in the neocortex of reeler mutant mice.

1. Patterns of cell and fiber distribution in the neocortex of the reeler mutant mouse.

Review 2. Mechanisms of cortical development: a view from mutations in mice.

3. Structural changes in the area striata of the mouse after enucleation.

4. Time of origin or corresponding cell classes in the cerebral cortex of normal and reeler mutant mice: an autoradiographic analysis.

5. Retrohippocampal, hippocampal and related structures of the forebrain in the reeler mutant mouse.

6. Experimental reorganization of the cerebellar cortex. I. Morphological effects of elimination of all microneurons with prolonged x-irradiation started at birth.

7. The cellular pathology of microgyria. A Golgi analysis.

8. Interhemispheric neocortical connections of the corpus callosum in the reeler mutant mouse: a study based on anterograde and retrograde methods.

9. A new procedure for examining Golgi impregnated neurons by light and electron microscopy.

10. [Lissencephaly: agyria. A study using the Golgi technic].

Review 1. Emerging topics in Reelin function.

Review 2. Cellular and molecular introduction to brain development.

3. Inverted neurons in agyria. A Golgi study of a case with abnormal chromosome 17.

4. Neuroanatomical phenotypes in the reeler mouse.

5. Reelin regulates cadherin function via Dab1/Rap1 to control neuronal migration and lamination in the neocortex.

6. Looking for the origins of axons.

7. A Golgi analysis of unlayered polymicrogyria.

Review 8. The underside of the cerebral cortex: layer V/VI spiny inverted neurons.

Review 9. Molecules and mechanisms that regulate multipolar migration in the intermediate zone.

10. Ezh2 is involved in radial neuronal migration through regulating Reelin expression in cerebral cortex.