Summary
The innervated face of electrocytes in the main electric organ of Electrophorus electricus L. was examined by light microscopy, both conventional and with Nomarski contrast, and by transmission and scanning electron microscopy. Acetylcholinesterase cytochemistry was used in the demonstration of the greater density of synapses over the caudal papillae. The various techniques contributed to a better understanding of the distribution and form of papillae and synapses at the posterior face of the electrocyte. Caudal papillae are longer and thinner than those at the rostral face, but it was not possible to recognize a different type sometimes referred to in the literature as small papillae. The contact of nerve endings with the electrocyte seems to be made predominantly on the terminal half of caudal papillae, however a smaller number occur elsewhere on the posterior face. Synaptic terminals frequently appear as round profiles, but may be also elongated, with or without bulges, usually occupying a depression, and separated from the post-synaptic membrane by a space of 60–100 nm, where an expansion may be found.
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References
Allen RD, David GB, Nomarski G (1969) The Zeiss-Nomarski differential interference equipment for transmitted-light microscopy. Zeitschrift für wissenschaftliche Mikroskopie und mikroskopische Technik, Band 69, Heft 4
Almeida DF, Oliveira Castro G de, Miranda M, Chagas C (1963) A study of the isolated posterior half of the electrocyte of Electrophorus electricus L. Exp Cell Res 29:42–49
Benchimol M, De Souza W, Machado RD (1977) An electron microscopic investigation of the surface coat of the electrocyte of Electrophorus electricus L. Cell Tissue Res 183:239–253
Bloom FE, Barrnett RJ (1966) Fine structural localization of acetylcholinesterase in electroplaque of the electric eel. J Cell Biol 29:475–495
Chagas C, Paes de Carvalho A (1961) Bioelectrogenesis. Elsevier, Amsterdam
Couceiro A, Akerman M (1948) Sur quelques aspects du tissu électrique de l'Electrophorus electricus L. Anais Acad Bras Ciências 20:383–395
Danon D, Goldstein L, Marikovsky Y, Skutelsky E (1972) Use of cationized ferritin as label of negative charges on cell surfaces. J Ultrastruct Res 38:500–510
David GB, Galbraith W, Geyer SB, MacKoether A, Palmer NF, Pixler J (1975) Improved isolation, separation and cytochemistry of living cells. Prog Histochem Cytochem, Stuttgart, Vol 7 n 1
Grinnel F, Tobleman MQ, Hackrenbrock CR (1975) The distribution and mobility of anionic sites on the surfaces of baby hamster kidney cells. J Cell Biol 66:470–479
Luft JH (1957) The histology and cytology of the electric organ of the electric eel (Electrophorus electricus L.). J Morphol 100:113–139
Machado RD, De Souza W, Cotta-Pereira G, Oliveira Castro G de: (1976) On the fine structure of the electrocyte of Electrophorus electricus L. Cell Tissue Res 174:355–366
Schwartz IR, Pappas GD, Bennett MBL (1975) The fine structure of electrocytes in weakly electric teleosts. J Neurocytol 4:87–114
Tsuji S (1974) On the chemical basis of thiocholine methods for demonstration of acetylcholinesterase activities. Histochemistry 42:99–110
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Machado, R.D., de Souza, W., Benchimo, M. et al. Observations on the innervated face of the electrocyte of the main organ of the electric eel (Electrophorus electricus L.). Cell Tissue Res. 213, 69–80 (1980). https://doi.org/10.1007/BF00236921
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DOI: https://doi.org/10.1007/BF00236921