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Keywords: Regeneration
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Journal Articles
Journal Articles
Brain Behav Evol (1990) 36 (5): 293–299.
Published Online: 02 June 2010
..., or with the lipophilic fluorescent dye DiI in aldehyde-fixed animals, or bilaterally with differently colored fluorescent dextran amines. Unilateral nerve crush always leads to the regeneration of retinofugal fibers to the contralateral tectum but spares some contralateral diencephalic nuclei. In addition, unilateral...
Journal Articles
Brain Behav Evol (1990) 36 (5): 279–285.
Published Online: 02 June 2010
..., or with the lipophilic fluorescent dye DiI in aldehyde-fixed animals, or bilaterally with differently colored fluorescent dextran amines. Unilateral nerve crush always leads to the regeneration of retinofugal fibers to the contralateral tectum but spares some contralateral diencephalic nuclei. In addition, unilateral...
Journal Articles
Journal Articles
Brain Behav Evol (2009) 73 (1): 43–58.
Published Online: 27 February 2009
... to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements. Brain-derived neurotrophic factor Neurotrophins Brain Teleost fish Regeneration In order to designate the labeled cells, correlations were made between...
Journal Articles
Journal Articles
Brain Behav Evol (1990) 36 (5): 286–292.
Published Online: 30 January 2008
..., or with the lipophilic fluorescent dye DiI in aldehyde-fixed animals, or bilaterally with differently colored fluorescent dextran amines. Unilateral nerve crush always leads to the regeneration of retinofugal fibers to the contralateral tectum but spares some contralateral diencephalic nuclei. In addition, unilateral...
Journal Articles
Brain Behav Evol (1990) 36 (5): 271–278.
Published Online: 30 January 2008
..., or with the lipophilic fluorescent dye DiI in aldehyde-fixed animals, or bilaterally with differently colored fluorescent dextran amines. Unilateral nerve crush always leads to the regeneration of retinofugal fibers to the contralateral tectum but spares some contralateral diencephalic nuclei. In addition, unilateral...
Journal Articles
Brain Behav Evol (1992) 40 (4): 197–208.
Published Online: 18 January 2008
... projections Ganglion cell Regeneration Carp Abstract Changes in retinal projections and ganglion cell morphology were studied in one-eyed individuals of the common carp. Cyprians carpio, which were enu­ cleated at a juvenile stage (within 6 months after hatching) and kept for 18 months after the operation...
Journal Articles
Journal Articles
Brain Behav Evol (1996) 47 (4): 200–213.
Published Online: 08 January 2008
...X.C. Zou; R.H. Ho; X.M. Wang; G.F. Martin We have shown previously that GAP-43, a growth associated protein characteristically present in growing and regenerating axons, is relatively abundant in the spinal cord of adult opossums. In the present study, we combined the orthograde transport...
Journal Articles
Brain Behav Evol (2001) 58 (5): 306–322.
Published Online: 25 April 2002
... Regeneration Stem cells Ependymal cells, however, play an important role in creating an environment that is permissive for neurogenesis. SVZ astrocytes produce bone morphogenic proteins (BMPs) that inhibit neurogenesis in this region. Ependymal cells secrete noggin, an antagonist of BMP signaling...
Journal Articles
Brain Behav Evol (2001) 58 (5): 296–305.
Published Online: 25 April 2002
...Thomas A. Reh; Andrew J. Fischer The capacity for retinal regeneration in cold-blooded vertebrates has long been recognized. Regeneration occurs, in part, through a population of retinal stem cells residing at the peripheral margin of the retina. It has generally been thought that homeothermic...