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- Title
Projection patterns of single physiologically characterized optic tract fibres in cat.
- Authors
Bowling, Douglas B.; Michael, Charles R.
- Abstract
Because the axons of retinal ganglion cells are the sole channels carrying information from the eye, the organization of their central projections is important in visual processing. However, their detailed destinations and patterns of synaptic distribution at the level of single, functionally identified cells are not known. Most anatomical studies involve populations of cells or fibres and do not examine their physiological properties; physiological studies involving intraceliular recording and injection of marker substances into cell bodies1-3 of single cells do not reveal distant axon terminals because the markers stain the fibres for only a few millimetres from the perikarya. To examine the central projections of retinal ganglion cells we have impaled single optic tract fibres near their sites of termination4,5 and injected them iontophoretically with the marker enzyme horseradish peroxidase (HRP). We now report that this method has revealed the thalamic and midbrain ramifications of single physiologically characterized axons. The individual optic-tract fibres branch repeatedly, sending collaterals to the superior colliculus (SC), the medial interlaminar nucleus (MIN), and to one or more laminae within the dorsal lateral geniculate nucleus (LGNd). In different nuclei the single axons form arborizations of characteristically different shapes and distribute their synaptic terminals in columns (LGNd), sheets (MIN) or widely spread patches (SC).
- Publication
Nature, 1980, Vol 286, Issue 5776, p899
- ISSN
0028-0836
- Publication type
Article
- DOI
10.1038/286899a0