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Axons connecting somata and axon terminals of luminosity‐type horizontal cells in the turtle retina: Receptive field studies and intracellular injections of HRP
Author(s) -
Ohtsuka Teruya
Publication year - 1983
Publication title -
journal of comparative neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.855
H-Index - 209
eISSN - 1096-9861
pISSN - 0021-9967
DOI - 10.1002/cne.902200206
Subject(s) - axon , axon terminal , receptive field , biology , axon hillock , horseradish peroxidase , retina , biophysics , intracellular , cell type , neuroscience , anatomy , cell , microbiology and biotechnology , biochemistry , enzyme
Abstract Luminosity (L)‐type horizontal cell responses to small and large spots of light in the turtle (Geoclemys) retina were recorded intracellularly, and each cell so studied was filled with horseradish peroxidase (HRP) by ionophoretic injection. Following histochemical reaction of the HRP with diaminobenzi‐dine (DAB), light microscopic inspection demonstrated that this type of horizontal cell has a cell body connected to a tuberous axon terminal by a fine axon. By examining the location of the cell in relation to the linear array of electrode penetrations in each preparation, it was possible to determine whether a given recording was made in the cell body or in the axon terminal. The size of the receptive field of the cell body was significantly smaller than that of the axon terminals. Although the center‐to‐center distances between the cell body and the axon terminal of some L‐type horizontal cells were as short as 50 μm, the length of the intervening axon was invariably longer and was at least 250 μm. Unless signals are amplified by some active mechanisms during their propagation along the axon, it is unlikely that current generated in the cell body spreads to the axon terminal through the thin axon, or in the opposite direction. The difference in receptive field sizes of cell body and of axon terminal may therefore indicate that these two structural subunits are electrically isolated.