Aspinous and sparsely-spinous stellate neurons in the visual cortex of rats contain glutamic acid decarboxylase (original) (raw)
References
Anderson, P., Eccles, J. C. andLøyning, Y. (1964) Pathway of postsynaptic inhibition in the hippocampus.Journal of Neurophysiology27, 608–19. PubMed Google Scholar
Armstrong, C. M. (1968) The inhibitory pathway from the lateral geniculate body to the optic cortex in the cat.Experimental Neurology21, 429–39. PubMed Google Scholar
Barber, R. andSaito, K. (1976) Light microscopic visualization of GAD and GABA-T in immunocytochemical preparations of rodent CNS. In_GABA in Nervous System Function_ (edited byRoberts, E., Chase, T. N. andTower, D. B.) pp. 113–132. New York: Raven Press. Google Scholar
Colonnier, M. (1968) Synaptic patterns on different cell types in the different laminae of the cat visual cortex. An electron microscope study.Brain Research9, 268–87. PubMed Google Scholar
Curtis, D. R. andFelix, D. (1971) The effect of bicuculline upon synaptic inhibition in the cerebral and cerebellar cortices of the cat.Brain Research34, 301–21. PubMed Google Scholar
Dreifuss, J. J., Kelly, J. S. andKrnjević, K. (1969) Cortical inhibition and γ-aminobutyric acid.Experimental Brain Research9, 137–54. Google Scholar
Eccles, J. C. (1969)The Inhibitory Pathways of the Central Nervous System. Springfield: Thomas. Google Scholar
Eccles, J. C., Ito, M. andSzentagothai, J. (1967)The Cerebellum as a Neuronal Machine. New York: Springer-Verlag. Google Scholar
Fairén, A., Peters, A. andSaldanha, J. (1977) A new procedure for examining Golgi impregnated neurons by light and electron microscopy.Journal of Neurocytology6, 311–37. PubMed Google Scholar
Feldman, M. andPeters, A. (1978) The forms of non-pyramidal neurons in the visual cortex of the rat.Journal of Comparative Neurology (in press).
Hirsch, H. andRobins, E. (1962) Distribution of γ-aminobutyric acid in the layers of the cerebral and cerebellar cortex.Journal of Neurochemistry9, 63–70. PubMed Google Scholar
Iversen, L. L., Mitchell, J. F. andSrinivasen, V. (1971) The release of γ-aminobutyric acid during inhibition in the cat visual cortex.Journal of Physiology212, 519–34. PubMed Google Scholar
Jacobson, S. andTrojanowski, J. Q. (1974) The cells of origin of the corpus callosum in rat, cat and rhesus monkey.Brain Research74, 149–55. PubMed Google Scholar
Jacobson, S. andTrojanowski, J. Q. (1975) Corticothalamic neurons and thalamocortical terminal fields: An investigation in rat using horseradish peroxidase and autoradiography.Brain Research85, 385–401. PubMed Google Scholar
Jones, E. G. (1975) Varieties and distribution of non-pyramidal cells in the somatic sensory cortex of the squirrel monkey.Journal of Comparative Neurology160, 205–68. PubMed Google Scholar
LeVay, S. (1973) Synaptic patterns in the visual cortex of the cat and monkey. Electron microscopy of Golgi preparations.Journal of Comparative Neurology150, 53–86. PubMed Google Scholar
Levay, S. andGilbert, C. B. (1976) Laminar patterns of geniculocortical projection in the cat.Brain Research113, 1–19. PubMed Google Scholar
Lorente de Nó, R. (1938) Cerebral cortex: Architecture, intracortical connections, motor projections. In_Physiology of the Nervous System_ (edited byFulton, J. F.) pp. 291–325. London: Oxford University Press. Google Scholar
Lund, J. S. (1973) Organization of neurons in the visual cortex, area 17, of the monkey (Macaca mulatto).Journal of Comparative Neurology147, 455–96. PubMed Google Scholar
Lund, J. S., Lund, R. D., Hendrickson, A. E., Bunt, A. H. andFuchs, A. F. (1975) The origin of efferent pathways from the primary visual cortex, area 17, of the macaque monkey as shown by retrograde transport of horseradish peroxidase.journal of Comparative Neurology,164, 287–304. Google Scholar
Marin-Padilla, M. (1969) Origin of the pericellular baskets of the human motor cortex: A Golgi study.Brain Research14, 633–46. PubMed Google Scholar
McLaughlin, B. J., Wood, J. G., Saito, K., Barber, R., Vaughn, J. E., Roberts, E. andWu, J. -Y. (1974) The fine structural localization of glutamate decarboxylase in synaptic terminals of rodent cerebellum.Brain Research76, 377–91. PubMed Google Scholar
McLaughlin, B. J., Barber, R., Saito, K., Roberts, E. andWu, J.-Y. (1975) Immunocytochemical localization of glutamate decarboxylase in rat spinal cord.Journal of Comparative Neurology164, 305–22. PubMed Google Scholar
Millonig, G. (1961) Advantage of a phosphate buffer for OsU4 solutions in fixation.Journal of Applied Physiology32, 1637. Google Scholar
Okada, Y., Nitsch-Hassler, C., Kim, J. S., Bak, I. J. andHassler, R. (1971) Role of gamma-aminobutyric acid (GABA) in the extrapyramidal motor system. I. Regional distribution of GABA in rabbit, rat, guinea pig and baboon CNS.Experimental Brain Research13, 514–8. Google Scholar
Parnavelas, J. G., Sullivan, K., Lieberman, A. R. andWebster, K. E. (1977) Neurons and their synaptic organization in the visual cortex of the rat. Electron microscopy of Golgi preparations.Cell and Tissue Research183, 499–517. PubMed Google Scholar
Peters, A. (1971) Stellate cells of the rat parietal_cortex_.Journal of Comparative Neurology141, 345–74. PubMed Google Scholar
Peters, A. andFairén, A. (1978) Smooth and sparsely-spined stellate cells in the visual cortex of the rat. A study using a combined Golgi-electron microscope technique.Journal of Comparative Neurology (in press).
Peters, A., Feldman, M. andSaldanha, J. (1976a) The projection of the lateral geniculate nucleus to area 17 of the rat cerebral cortex. II. Terminations upon neuronal perikarya and dendritic shafts.Journal of Neurocytology5, 85–107. PubMed Google Scholar
Ramón Y Cajal, S. (1911)Histologie du Système Nerveux de l'Homme et des Vertébrés, Tome II. Paris: Maloine. Google Scholar
Ribak, C. E. andPeters, A. (1975) An autoradiographic study of the projections from the lateral geniculate body of the rat.Brain Research92, 341–68. PubMed Google Scholar
Ribak, C. E., Vaughn, J. E. andSaito, K. (1978) Immunocytochemical localization of glutamic acid decarboxylase in neuronal somata following colchicine inhibition of axonal transport.Brain Research,140, 315–32. PubMed Google Scholar
Ribak, C. E., Vaughn, J. E., Saito, K., Barber, R. andRoberts, E. (1976) Immunocytochemical localization of glutamate decarboxylase in rat substantia nigra.Brain Research116, 287–98. PubMed Google Scholar
Ribak, C. E., Vaughn, J. E., Saito, K., Barber, R. andRoberts, E. (1977) Glutamate decarboxylase localization in neurons of the olfactory bulb.Brain Research126, 1–18. PubMed Google Scholar
Saito, K., Barber, R., Wu, J. -Y., Matsuda, T., Roberts, E. andVaughn, J. E. (1974) Immunohistochemical localization of glutamate decarboxylase in rat cerebellum.Proceedings of the National Academy of the Sciences, U.S.A.71, 269–73. Google Scholar
Shkol'nik-Yarros, E. G. (1971)Neurons and Interneuronal Connections of the Central Visual System. New York: Plenum Press. Google Scholar
Sillito, A. M. (1975) The contribution of inhibitory mechanisms to the receptive field properties of neurones in the striate cortex of the cat.Journal of Physiology250, 305–29. PubMed Google Scholar
Somogyi, P. (1977) A specific ‘axo-axonal’interneuron in the visual cortex of the rat.Brain Research136, 345–50. PubMed Google Scholar
Szentâgothai, J. (1973) Synaptology in the visual cortex. In_Handbook of Sensory Physiology, Vol._ VII, 3 B.Visual Centers of the Brain (edited byJung, R.), pp. 269–324. Berlin: Springer-Verlag. Google Scholar
Tappaz, M. L., Brownstein, M. J. andPalkovits, M. (1976.Brain Research108, 371–9. PubMed Google Scholar
Toyama, K., Matsunami, K., Ohno, T. andTokashiki, S. (1974) An intracellular study of neuronal organization in the visual cortex.Experimental Brain Research21, 45–66. Google Scholar
Valverde, F. (1976) Aspects of cortical organization related to geometry of neurons with intra-cortical axons.Journal of Neurocytology5, 509–30. PubMed Google Scholar
Wallingford, E., Ostadahl, R., Zarzecki, P., Kaufman, P. andSomjen, G. (1973) Optical and pharmacological stimulation of visual cortical neurones.Nature New Biology242, 210–2. PubMed Google Scholar
Watanabe, S., Konishi, M. andCreutzfeldt, O. D. (1966) Post-synaptic potentials in the cat's visual cortex following electrical stimulation of afferent pathways.Experimental Brain Research1, 272–83. Google Scholar
White, E. L. (1976) Ultrastructure and synaptic contacts in barrels of mouse SI cortex.Brain Research105, 229–51. PubMed Google Scholar
Wood, J. G., McLaughlin, B. J. andVaughn, J. E. (1976) Immunocytochemical localization of GAD in electron microscopic preparations of rodent CNS. In_GABA in Nervous System Function_, (edited byRoberts, E., Chase, T. N. andTower, D. B.) pp. 133–148. New York: Raven Press. Google Scholar