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Keywords: Electron microscopy
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Journal Articles
Journal Articles
Brain Behav Evol (2010) 76 (1): 60–70.
Published Online: 30 September 2010
.... These observations were complemented by examination of hemotoxylin and eosin-stained paraffin sections of the dorsal root entry zone, and transmission electron microscopy of the dorsal horn. Transverse sections of the sensory nerve and dorsal root revealed two distinct myelinated axon sizes in the sensory nerve...
Journal Articles
Brain Behav Evol (1994) 44 (2): 117–124.
Published Online: 04 June 2010
... which lacks goblet cells. Using transmission electron microscopy, we found morphologically distinct olfactory receptor cells: many receptor cells terminate in microvillar dendrites, and fewer terminate in motile cilia with the 9 + 2 microtubule array typical of vertebrate olfactory receptor cells...
Journal Articles
Brain Behav Evol (1974) 10 (1-3): 37–51.
Published Online: 01 April 2008
... from any ideas, methods, instructions or products referred to in the content or advertisements. Statoconia Non-mammalian Light microscopy Electron microscopy Brain Behav. Evol. 10: 37-51 (1974) The Statoconia of the Non-Mammalian Species1 D. J. Lim Otological Research Laboratories...
Journal Articles
Journal Articles
Brain Behav Evol (1989) 33 (5): 279–292.
Published Online: 06 February 2008
.../mm 2 and a horizontal streak of high cell density extending from the area centralis into the nasal retina. Integration of the ganglion cell density map gave an estimated total of 1.4 million cells for the ganglion cell layer. Electron microscopy of a single, complete section of the optic nerve...
Journal Articles
Brain Behav Evol (1990) 36 (5): 249–261.
Published Online: 30 January 2008
...Leo S. Demski; Sam H. Ridgway; Marlene Schwanzel-Fukuda The terminal nerve (TN) of several dolphins was examined using gross dissection aided by osmium staining, routine light and electron microscopy, and immunocytochemistry with antibodies to mammalian luteinizing-hormone-releasing hormone (LHRH...
Journal Articles
Brain Behav Evol (1992) 40 (5): 250–255.
Published Online: 18 January 2008
...Robert Huber; M.Kent Rylander Quantitative analysis of the optic nerve of minnows using light- and electron microscopy demonstrated that anatomical characteristics of the visual system are closely related to habitat turbidity. Species in the genera Notropis and Cyprinella inhabiting predominantly...
Journal Articles
Brain Behav Evol (1994) 44 (2): 108–116.
Published Online: 15 January 2008
... which lacks goblet cells. Using transmission electron microscopy, we found morphologically distinct olfactory receptor cells: many receptor cells terminate in microvillar dendrites, and fewer terminate in motile cilia with the 9 + 2 microtubule array typical of vertebrate olfactory receptor cells...
Journal Articles
Brain Behav Evol (1995) 45 (1): 19–24.
Published Online: 15 January 2008
...Jamie VanDenbossche; James G. Seelye; Barbara S. Zielinski The structure of the olfactory epithelium in the larval, juvenile and upstream migrant stages of the sea lamprey, Petromyzon marinus, was investigated by light microscopy and by scanning and transmission electron microscopy. Ciliated...
Journal Articles
Brain Behav Evol (1996) 47 (5): 257–266.
Published Online: 08 January 2008
...A.V. Revishchin; L.J. Garey The distributions of mitochondria and synapses in two areas of harbour porpoise cerebral cortex were examined by quantitative electron microscopy of sections stained for cytochrome oxidase. The distribution of cytochrome oxidase-positive and total mitochondria...
Journal Articles
Brain Behav Evol (2002) 59 (1-2): 68–86.
Published Online: 19 June 2002
... responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements. Learning Invertebrates Insects Africanized honey bee Intelligence Electron microscopy Classical conditioning Insect behavior Invertebrate...