Excitatory cortical neurons form fine-scale functional networks (original) (raw)

References

  1. Mountcastle, V. B. Introduction. Computation in cortical columns. Cereb. Cortex 13, 2–4 (2003)
    Article Google Scholar
  2. Hubel, D. H. & Wiesel, T. N. Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. J. Physiol. (Lond.) 160, 106–154 (1962)
    Article CAS Google Scholar
  3. Chapman, B., Zahs, K. R. & Stryker, M. P. Relation of cortical cell orientation selectivity to alignment of receptive fields of the geniculocortical afferents that arborize within a single orientation column in ferret visual cortex. J. Neurosci. 11, 1347–1358 (1991)
    Article CAS Google Scholar
  4. Ferster, D., Chung, S. & Wheat, H. Orientation selectivity of thalamic input to simple cells of cat visual cortex. Nature 380, 249–252 (1996)
    Article ADS CAS Google Scholar
  5. Alonso, J. M., Usrey, W. M. & Reid, R. C. Rules of connectivity between geniculate cells and simple cells in cat primary visual cortex. J. Neurosci. 21, 4002–4015 (2001)
    Article CAS Google Scholar
  6. Mooser, F., Bosking, W. H. & Fitzpatrick, D. A morphological basis for orientation tuning in primary visual cortex. Nature Neurosci. 7, 872–879 (2004)
    Article CAS Google Scholar
  7. Callaway, E. M. Local circuits in primary visual cortex of the macaque monkey. Annu. Rev. Neurosci. 21, 47–74 (1998)
    Article CAS Google Scholar
  8. Thomson, A. M. & Morris, O. T. Selectivity in the inter-laminar connections made by neocortical neurones. J. Neurocytol. 31, 239–246 (2002)
    Article Google Scholar
  9. Thomson, A. M., West, D. C., Wang, Y. & Bannister, A. P. Synaptic connections and small circuits involving excitatory and inhibitory neurons in layers 2–5 of adult rat and cat neocortex: triple intracellular recordings and biocytin labelling in vitro . Cereb. Cortex 12, 936–953 (2002)
    Article Google Scholar
  10. Hellwig, B. A quantitative analysis of the local connectivity between pyramidal neurons in layers 2/3 of the rat visual cortex. Biol. Cybern. 82, 111–121 (2000)
    Article CAS Google Scholar
  11. Hellwig, B., Schuz, A. & Aertsen, A. Synapses on axon collaterals of pyramidal cells are spaced at random intervals: a Golgi study in the mouse cerebral cortex. Biol. Cybern. 71, 1–12 (1994)
    Article CAS Google Scholar
  12. Braitenberg, V. & Schuz, A. Anatomy of the Cortex (Springer-Verlag, Berlin, 1991)
    Book Google Scholar
  13. Binzegger, T., Douglas, R. J. & Martin, K. A. A quantitative map of the circuit of cat primary visual cortex. J. Neurosci. 24, 8441–8453 (2004)
    Article CAS Google Scholar
  14. Aertsen, A. M., Gerstein, G. L., Habib, M. K. & Palm, G. Dynamics of neuronal firing correlation: modulation of “effective connectivity”. J. Neurophysiol. 61, 900–917 (1989)
    Article CAS Google Scholar
  15. Dantzker, J. L. & Callaway, E. M. Laminar sources of synaptic input to cortical inhibitory interneurons and pyramidal neurons. Nature Neurosci. 3, 701–707 (2000)
    Article CAS Google Scholar
  16. Kawaguchi, Y. & Kondo, S. Parvalbumin, somatostatin and cholecystokinin as chemical markers for specific GABAergic interneuron types in the rat frontal cortex. J. Neurocytol. 31, 277–287 (2002)
    Article Google Scholar
  17. Hebb, D. O. The Organization of Behavior (Wiley, New York, 1949)
    Google Scholar
  18. Yoshimura, Y., Ohmura, T. & Komatsu, Y. Two forms of synaptic plasticity with distinct dependence on age, experience, and NMDA receptor subtype in rat visual cortex. J. Neurosci. 23, 6557–6566 (2003)
    Article CAS Google Scholar
  19. Sur, M., Schummers, J. & Dragoi, V. Cortical plasticity: time for a change. Curr. Biol. 12, R168–R170 (2002)
    Article CAS Google Scholar
  20. Katz, L. C. & Shatz, C. J. Synaptic activity and the construction of cortical circuits. Science 274, 1133–1138 (1996)
    Article ADS CAS Google Scholar
  21. Sawatari, A. & Callaway, E. M. Diversity and cell type specificity of local excitatory connections to neurons in layer 3B of monkey primary visual cortex. Neuron 25, 459–471 (2000)
    Article CAS Google Scholar
  22. Schubert, D., Kotter, R., Zilles, K., Luhmann, H. J. & Staiger, J. F. Cell type-specific circuits of cortical layer IV spiny neurons. J. Neurosci. 23, 2961–2970 (2003)
    Article CAS Google Scholar
  23. Agmon, A. & Connors, B. W. Correlation between intrinsic firing patterns and thalamocortical synaptic responses of neurons in mouse barrel cortex. J. Neurosci. 12, 319–329 (1992)
    Article CAS Google Scholar
  24. Gibson, J. R., Beierlein, M. & Connors, B. W. Two networks of electrically coupled inhibitory neurons in neocortex. Nature 402, 75–79 (1999)
    Article ADS CAS Google Scholar
  25. Gonchar, Y. & Burkhalter, A. Connectivity of GABAergic calretinin-immunoreactive neurons in rat primary visual cortex. Cereb. Cortex 9, 683–696 (1999)
    Article CAS Google Scholar
  26. Gonchar, Y. & Burkhalter, A. Distinct GABAergic targets of feedforward and feedback connections between lower and higher areas of rat visual cortex. J. Neurosci. 23, 10904–10912 (2003)
    Article CAS Google Scholar
  27. Meskenaite, V. Calretinin-immunoreactive local circuit neurons in area 17 of the cynomolgus monkey, Macaca fascicularis. J. Comp. Neurol. 379, 113–132 (1997)
    Article CAS Google Scholar
  28. Staiger, J. F. et al. Innervation of interneurons immunoreactive for VIP by intrinsically bursting pyramidal cells and fast-spiking interneurons in infragranular layers of juvenile rat neocortex. Eur. J. Neurosci. 16, 11–20 (2002)
    Article Google Scholar
  29. Girman, S. V., Sauve, Y. & Lund, R. D. Receptive field properties of single neurons in rat primary visual cortex. J. Neurophysiol. 82, 301–311 (1999)
    Article CAS Google Scholar
  30. DeAngelis, G. C., Ghose, G. M., Ohzawa, I. & Freeman, R. D. Functional micro-organization of primary visual cortex: receptive field analysis of nearby neurons. J. Neurosci. 19, 4046–4064 (1999)
    Article CAS Google Scholar

Download references