Titlebook: Development and Regeneration of the Nervous System; S. Nona,J. Cronly-Dillon,M. Ferguson Book 1992 S. Nona, J. Cronly-Dillon, M. Ferguson,

只看該作者 · 發(fā)表于 2025-3-28 23:39:57

N. Katsumata,C. Chakraborty,H. G. Friesen definitive answer to Cragg’s question today than he was 20 years ago. In the interim, however, the number of molecular and cellular techniques that enable us to explore neurons in finer detail has increased. Consequently, the last 10 years have seen an explosion in information regarding molecular c

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Implementing Sustainable Growth Managementrkable degree of regeneration that takes place in the injured system. This, and the fact that the system is highly manipulable experimentally, has made the goldfish visual pathway an ideal model for studies that are pertinent to successful functional regeneration.

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You, Your “Two Hats” and Growth Managementhares an exposed location in the orbit with various peripheral nerves supplying the eye muscles. This invites comparison, to ask how tissue of CNS origin is formed into a resilient structure with mechanical properties matching those of the peripheral nerves, and what glial patterns are involved. The

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只看該作者 · 發(fā)表于 2025-3-29 17:41:33

Verringerung der Kundenabwanderung,e connections during vertebrate brain development is particularly impressive in that immense numbers of neurons extend growth cones over very long distances. During the last few years, our research has been focused on trying to understand how this task of establishing axonal connections is achieved

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只看該作者 · 發(fā)表于 2025-3-30 00:54:10

https://doi.org/10.1007/978-981-16-2486-5nal potential of the brain. The nervous system has the unique ability to respond to external and internal perturbations by modifying its synaptic contacts. Such a plasticity allows for adaptive changes in response to lesions, stimulation and experience. The capability of the nervous system to reorga

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Growth Mechanisms and Sustainabilityg developed early in evolution. Consequently it is probable that some of these mechanisms were conserved as species multiplied and diversified into the available ecological niches. The acceptance of this argument allows us to study the cellular substrates of memory in accessible animal models, and t

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