Summary
Serotonin immunoreactivity is first expressed in neurons in the brain of crayfish at 75% development, increases in the two postembryonic stages, and is complete in the first adult stage. Early ablations of the antennules of early postembryos, reared in isolation from their mothers, affects the development of the olfactory lobes and the large serotonin immunoreactive neurons within them.
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Bieber, A (1940) Beitrage zur Kenntnis der Jugendphasen desFlusskrebses Astacus fluviatilis (Rond.) L. mit besondere Berucksichtigung der Metamorphose. Rev. Suisse de Zoologie 47:391–470
Chantran, S. (1872) Sur la fecondation des ecrevisses. C.R. Acad. Sci. Paris 74:201–202
Camazine, S.M. & Hildebrand J.G. (1979) Central projections of antennal sensory neurons in mature and developing Manduca sexta. Soc. Neurosci. Abst. 5:155
Droscher, W. (1906) Der Krebs und seine Zucht. J. Neumann, Neudamm. Goldberg, J.I. & Kater, S.B. (1989) Expression and function of the neurotransmitter serotonin during development of the Helisoma nervous system. Developmental Biology 131:483–495
Goldberg, J.I. & Kater, S.B. (1985) Experimental reduction of serotonin content during embryogenesis alters morphology and connectivity of specific identified Helisoma neurons. Soc. Neurosci. Abstr. 11:158
Goldberg, J.I., Natvig, P. & Kater, S.B. (1986) Embryonic and postembryonic development of the serotonin phenotype in HelisomaSoc. Neurosci. Abstr. 12:1163
Granger, N.A., Homberg, U., Henderson, P., Towle, A. & Lauder, J.M. (1989) Serotonin-immunoreactive neurons in the brain of Manduca sexta during larval development and larval-pupal metamorphosis. Int. J. Neuroscience 7:55–72
Hildebrand, J.G., Hall, L.M. & Osmond, B.C. (1979) Distribution of binding sites for 125 I-labeled alphabungarotoxin in normal and deafferented antennal lobes of Manduca sextaProc. Natl. AcadL Sci. USA 76:499–503
Mattson, M.P. (1988) Neurotransmitters in the regulation of neuronal cytoarchitecture. Brain Research Reviews 13:179–212
Maynard, E.A. (1973) Microscopic studies of degeneration in the crayfish brain following antennule removal. Society for Neuroscience, 3rd annual Meeting San Diego Abstr., p 39
Mellon, D., Tuten, H.R. & Redick, J. (1989) Distribution of radioactive leucine following uptake by olfactory sensory neurons in normal and heteromorphic crayfish antennules. J. Comp. Neuroi. 230:645–662
Mellon, D., Tuten, H.R., Hurley, L.M. & Easley, M.E. (1989) Acquisition of central targets by olfactory sensory neurons in homeotic antennules: Functional consequences. Soc. Neurosci. Abstr. 13:1140
Oland, L.A. & Tolbert, L.P. (1988) Effects of hydroxyurea parallel the effects of radiation in developing olfactory glomeruli in insects. J. Comp. Neurol. 278:377–387
Sandeman, D.C. (1989) Physical properties, sensory receptors and tactile reflexes of the antenna of the Australian freshwater crayfish Cherax destructor. J. exp. Biol. 141:197–217
Sandeman, D.C. & Denburg, (1976) The central projections of chemoreceptor axons in the crayfish revealed by axoplasmic transport. Brain Res. 115:492–496
Sandeman, D.C., Sandeman, R.E. & Aitken, A.R. (1988) Atlas of serotonin-containing neurons in the optic lobes and brain of the crayfish Cherax destructorJ. Comp. Neurol. 269:465–478
Sandeman, R.E. & Sandeman, D. C. (1987) Serotonin-like immunoreactivity of giant olfactory interneurons in the crayfish brain. Brain Res. 403:371–374
Tautz, J., Masters, W.M., Aicher, B. & Markl, H. (1981) A new type of water vibration reeptor on the crayfish antenna. I. Sensory Physiology. J. Comp. Physiol. 144:533–541
Zehnder, H. (1934a) Uber die Embryonalentwicklung des Flusskrebses. Teil I. Die ersten Stadien der Embryonalentwicklung von Astacus fluviatilis (Rond.) L. und Astacus torrentium (Schrank) vom unbefruchteten Ei bis zur Gastrulation. Acta Zool. 15:1–83
Zehnder, H. (1934b) Uber die Embryonalentwicklung des Flusskrebses. Teil II. Die Ausbildung der ausseren Korperform von Astacus fluviatilis (Rond.) L. und Astacus torrentium (Schrank) von der Gastrulation zum entwickelten Tier. Acta Zool. 15:85–148
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Sandeman, R., Sandeman, D. (1990). Development and Identified Neural Systems in the Crayfish Brain. In: Wiese, K., Krenz, WD., Tautz, J., Reichert, H., Mulloney, B. (eds) Frontiers in Crustacean Neurobiology. Advances in Life Sciences. Birkhäuser, Basel. https://doi.org/10.1007/978-3-0348-5689-8_62
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DOI: https://doi.org/10.1007/978-3-0348-5689-8_62
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