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| Creator | Title | Description | Subject | Date | ||
|---|---|---|---|---|---|---|
| 1 |
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Henderson, Thomas C. | Evolutionary teleomorphology | The physical layout of organs and neural structures in biological systems is important to their functioning, and is the result of evolutionary selection forces. We believe this is true even at the individual neuron level, and should be accounted for in any bio-based approach. In particular, when tr... | Evolutionary teleomorphology; Bio-based approach; Physical layout problem; PLP; Neurons; Nodes | 1995 |
| 2 |
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Bastiani, Michael | Guidance of neuronal growth cones in the grasshopper embryo. IV. Temporal delay experiments | In the previous 3 papers, we demonstrated that neuronal growth cones display selective affinities for both specific axonal and glial pathways in the grasshopper embryo; for example, the pCC growth cone selectively recognizes the MPl/dMP2 axons, while the aCC growth cone selectively recognizes the U... | Pathways; Neurons; Axons | 1986 |
| 3 |
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Bastiani, Michael | Guidance of neuronal growth cones: selective fasciculation in the grasshopper embryo | One of the central questions of developmental neurobiology concerns how the diversity and specificity of individual neurons are generated during embryonic development. One major component of neuronal diversity is the complex axonal morphology of individual neurons, largely generated early in develop... | Neurons; Filopodia; Axon | 1983 |
| 4 |
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Bastiani, Michael | Pathfinding by neuronal growth cones in grasshopper embryos: II. Selective fasciculation onto specific axonal pathways | In the previous paper (Raper, J. A., M. Bastiani, and C. S. Goodman (1983) J. Neurosci. 3: 20-30) we showed that the growth cones of two sibling neurons, the G and C cells, follow the same route in the developing grasshopper neuropil until they reach a stereotypic choice point. Here their growth con... | Neurons; Axons; Neuropil | 1983 |
| 5 |
 |
Angelucci, Alessandra | Segregation and overlap of callosal and association neurons in frontal and parietal cortices of primates: a spectral and coherency analysis. | The spatial relations between selected classes of association and callosal neurons were studied in the frontal and parietal lobes of the macaque monkey using retrogradely transported fluorescent dyes. Fast blue and nuclear yellow were injected in the left frontal (areas 4 and 6) and right posterior ... | Macaca fascicularis; Parietal Lobe; Neurons | 1989 |
| 6 |
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Jorgensen, Erik | Wormwholes: a commentary on K. F. Schaffner's "Genes, behavior, and developmental emergentism | Although Caenorhabditis elegans was chosen and modified to be an organism that would facilitate a reductionist program for neurogenetics, recent research has provided evidence for properties that are emergent from the neurons. While neurogenetic advances have been made using C elegans which may be u... | Organism; Neurons; Genotype | 1998 |
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